Table Of Content

SUBJECT INDEX diffusion 66(8): 131] adsorption 66(15 clay mineralogy 6613) | fluid inclusions ¢ noble gases 66(8): 1311 halite 66(15 ab initio calculations density functional theory 66(2 “He 66(8): 1311 Silurian aquo 66(24): 4223 rare earth elements 66(8 23 hexaquo 66(24): 4223 McMurdo Dry Valleys 66(8) | electron transfer 66(24): 422 Antarctica 66(8): 1323 kinetics 66(24): 4223 iron 66(8): 1323 oxygenation 66(24): 4223 manganese 66(8): 132 hydrolysis 66(24): 4223 redox cycling 66(8) iminosilicate melts water column 66(8) activation energy 66(1): 109 microbial reduction 66(8): 132 tracer diffusion 66(1): 109 bromine 66(8): 1385 silica 66(1): 109 partition coefficient 66(38): 138 albite 66(1): 109 evaporites 66(8): 1387 jadeite 66(1): 109 halite 66(8): 1387 glass 66(2): 291 kainite 66(8): 1387 biomine hydrous melts 66(2): 291 sylvite 66(8 1387 Fe isotopes oxygen sites 66(2): 29] carnallite 66(8) 387 isotope fra nuclear magnetic resonance 66(2): 29 bischofite 66(8): 1387 ueous geochemistry Henry's law 66(8): 1387 estuaries 66(3): 403 copper isotopes 6619): 1499 humics 66(3): 403 Zinc isotopes 6619): 1499 metals 66(3): 403 anion exchange 66(9): 1499 complexati copper 66( 3): 403 chromatography 66(9): 1499 EDTA 66(1 cobalt 66(3): 403 equilibrium fractionation 66(9): 1499 complexation 66(3): 403 acid mine drainz 66(9): 1511 binding 66(3): 403 weathering 66(9): 1511 modeling 66(3): 403 sulfide minerals 66(9) goethite 66(3): 431 column experiment 66 dissolution 66(3) metal attenuation 66(9 siderophores 66(3) acid neutralization 66( temperature 66(3): 431 Kidd Creek 66(9) trihydroxamate 66(3): 431 corundum 66(9) desferrioxamine 66(3): 431 solubility 66(9 biogenic silica 66(3): 439 aluminum aq us Complexes 66(9) 2) issolutior opal 66(3): 439 corundum in CaCl, 66(9): 1621 AFM 66( Si cycle 66(3): 439 thermodynamics 66(9 dissolution 66(3): 439 hydroge " e 66(10) kinetics 66(3): 439 dissociation constants 66( 10 flow-through experiment 66(3): 439 sulfur 66(10): 1713 phytoplankton 66(3): 439 surface complexation 66( I( oxygen exchange 66(4): 577 polysulfanes 66(10): 1713 kinetics 66(4): 577 lava-seawater interactions 170-NMR 66(4): 577 hydrothermal fluids 66( aluminum 66(4): 577 magmatic volatiles 66(11 oil field brines 66(4): 615 subaqueous volcanism 66 Li isotopes 66(4): 615 Co 66411): 1943 seawater 66(4): 615 Atlantic Ocean 66(11) evaporation 66(4): 615 trace elements 66(11) Messinian 66(4): 615 biogeochemistry 66(1 1 Fe(II) OXY hydroxides 66(5) BATS 66(11): 1943 colloids 66(5): 745 residence time 66(11 745 Ca adsorption 66(5) Al 66(11): 2013 phosphate adsorption 66(5) fluoride complexes 66(1 1 salinity gradient 66(5): 745 supercritical fluids 66(11 chromate 66(5): 783 thermodynamic properties 6¢ barite 66(5): 783 acid chemistry 66( 14): 2499 hydrogel 66(5): 783 subzero temperatures 66(14 diffusion 66(5): 783 geochemical model 66(14 t insport Zn 66(7): 1119 Euro6p6(a 14 ): 2499 XAFS spectroscor ferrihydrite 66(7): 1119 » carbonic acid 66(14): 2529 vo sorption 66(7): 1119 dissociation constants 66(14 166120): 354 EXAFS 66(7): 1119 seawater 66( 14): 2529 position 66(2 goethite 66(8): 1305 pKI 66( 14): 2529 mobility 66(20 surface 66(8): 1305 pK2 66(14) 2529 lake sediments sorption 66(8): 1305 birnessite 66(15): 26 diagenesis 66( uranyl 66(8): 1305 heavy metal 66(15) ) Eu 66(20): 3599 molecular mechanics 66(8): 1305 Zn 66(15): 2639 complexation 66(20 solute transport 66(8): 1311 Pb 66( 15): 2639 acetate 66(2 34900 low permeability 66(8): 1311 Cu 66(15): 2639 potentiometr method 66(. 1) 3599 elevated temperatures 66/ 20): 3599 microorganisms 66(23): 4047 petrogenesis 66(12): 2167 Cu 66(20): 3615 photochemistry 66(23): 4047 magma chamber 66(12): 2167 chloride 66(20): 3615 noble gases 66(23): 4103 crystallization 66(12): 2167 hydrothermal fluids 66(20): 3615 groundwater 66(23): 4103 phase equilibria 66(12): 2167 complexation 66(20): 3615 fractionation 66(23): 4103 moon 66(14) porphyry copper deposits 66(20) supersaturation 66(23): 4103 earth 66(14): 2631 Mo 66(21): 3679 quasi-saturation 66(23): 4103 eucrites 66(14): 2631 kaolinite 66(21): 367 entrapped air 66(23): 4103 impacts 66(14): 2631 catalysis 66(21): 3679 soil 66(23) 4103 chromium 66(14): 2631 clay minerals 66(21): 3679 manganese 66(23): 4119 origin 66(14): 2633 speciation 66(21): 3679 chromium 66(23): 4119 giant impact hypothesis 66(14): 263 3 kinetics 66(21): 3679 oxidation 66(23): 4119 bulk composition 66(14): 2633 hydrothermal fluids 66(21): 3693 sorption 66(23): 4119 moon 66(14): 2633 oceanic crust 66(21): 3693 dissolution 66(23): 4119 EXAFS spectroscopy 66( 15): 2639 seafloor hydrothermal systems 66(21 XPS 66(23): 4119 biogeochemistry 3693 AFM 66(23): 4119 marine sediments 66(7): 1171 REE 66(21): 3693 SEM 66(23): 4119 sapropels 66(7) trace elements 66(21): 3693 ICP 66(23): 4119 phosphate cycling 66(7) low temperature 66(21): 3693 forsterite 66(23): 4165 organic matter 66(7) Au 66(21): 3719 enstatite 66(23): 4165 Fe oxides 66(7) 71 speciation 66( 21): 37 aqueous silica 66( 23): 4165 anoxia 66(7) solubility 66(21) mantle fluids 66(23): 4165 silicate melts 66(21): 3719 metamorphic fluids 66(23): 4165 brine 66(21): 23 719 experimental petrology 66(23): 4165 seawater evolution 66(21): 3733 solubility in water 66(23): 4165 carbonate minerals evaporite 66(21): ) 23772323 Ga-Si complexes 66(24): 4203 Upper Ordovician 66(2): 241 halite 66(21): 3733 Al-Si complexes 66(24): 4203 epeiric sea 66(2): 241 fluid inclusions 66(21) metal coordination 66(24): 4203 paleooceanography 66(2): 241 Danube 66(21): 3839 71 Ga NMR 66(24): 4203 Nd isotopes 66(2): 241 river water 66(21): 3839 Ga K edge XAFS 66(24): 4203 Sm/Nd ratios 66(2): 241 major elements 66(21): 3839 hydolysis 66(24): 4203 sea level 66(2): 241 C isotopes 66(21): 3839 polymerization 66(24): 4203 Sr isotopes 66(4): 595 O isotopes 66( 21): 3839 Marcus theory 66(24): 4223 glacial meltwaters 66(4): 595 S isotopes 66( 21): 3839 limnology 66(24): 4235 Canadian Rockies 66(4): 595 H isotopes 66(21): 3839 saline lakes 66(24): 4235 carbonate weathering 66(4): 595 Sr isotopes 66( 21): 3839 salinity 66(24): 4235 coccoliths 66(6): 927 biogeochemistry 66(22): 3855 equation of state 66(24): 4235 Emiliania huxleyi 66(6): 927 U 66(22): 3855 major ions 66(24): 4235 paleoclimate 66(6): 927 bacteria 66(22) CTD 66(24): 4235 paleotemperature proxies 66(6) 927 transport 66(22 Nd speciation 66(24): 4311 Sr/Ca ratio 66(6): 927 metals 66(22): chloride complexes 66(24): 4311 calcite precipitation 66(7): 1159 XAFS 66(22) formation constants 66(24): 4311 Meg~~* removal 66(7): 1159 EXAFS 66(22) spectroscopy 66(24): 4311 H+ removal 66(7): 1159 XANES 66(22): 3873 aqueous solutions 66(24): 4311 biogeochemistry 66(7): 1159 ligand exchange 66(22): 38 hydrothermal systems 66(24): 4311 foraminifera 66(7): 1159 metal-organic complexes 66( arc magmatism ALH84001 66(7): 1285 surface chemistry 66(22): 387 Indonesia 66(15): 2771 SNC meteorites 66(7) adsorption 66(22): 3873 arc-continent collision 66(15): 2771 Mars 66(7): 1285 methyl mercury 66(22): 38 22 radiogenic isotopes 66(15): 2771 aqueous alteration 66(7) soil organic matter 66(22): 3873 trace elements 66(15): 2771 ostracods 66(10): 1701 Cr 66(22): 3927 continental subduction 66(15): 2771 ( isotopes 66(10) 1701 leaching 66(22): 3927 O isotopes 66( 10): 1701 dissolution kinetics 66(22): 3927 B isotope fractionation 66(10): 1701 cement phases 66(22): 3927 calcite 66(10): 1701 ore processing 66(22): 3927 barium scallop 66(10): 1727 hydrocalumite 66(22): 3927 zoning 66(9): 1641 shell 66(10): 1727 hydrogarnet 66(22): 3927 diffusion 66(9): 1641 isotopes 66(10): 17 methane 66(22): 3971 feldspar 66(9): 1641 growth rate 66(10): 1727 brine 66(22): 3971 Rutherford backscattering 66(9): 1641 coral 66(11): 1955 phase relations 66(22): 3971 basalts ( isotopes 66(11): 1955 thermodynamic properties 66(22): 3971 Mars 66(11): 2025 O isotopes 66(11): 1955 basalt 66(23): 4015 meteorites 66(11): 2025 light 66(11): 1955 surface water 66(23): 4015 crust 66(11): 2025 feeding 66(11): 1955 groundwater 66(23): 4015 mantle oxidation state 66(11): 2025 Porites compressa 66(11): 1955 Iceland 66(23): 4015 oxygen fugacity 66(11): 2025 land snails 66(11): 1987 solubility 66(23): 4015 mantle 66(11): 2025 C isotopes 66(11): 1987 mineral composition 66(23): 4015 Rb-Sr 66(11): 2025 O isotopes 66(11): 1987 thermodynamic properites 66(23): 4015 Sm-Nd 66(11): 2025 isotopic composition 66(11): 198 Mn 66(23): 4047 Mars 66(11): 2037 vegetation 66(11): 1987 oxidation 66(23): 4047 lherzolitic shergottites 66(11): 2037 rainfall 66(11): 1987 photo-oxidation 66(23): 4047 ages 66( 11): 2037 dolomite 66(14): 2541 superoxide 66(23): 4047 Rb-Sr isotopes 66(11): 2037 computer simulation 66(14): 2541 singlet oxygen 66(23): 4047 Sm-Nd isotopes 66( 11): 2037 impurities 66(14): 2541 humics 66(23): 4047 field relations 66(12): 2167 bulk 66(14): 2541 surface 66(14): 2541 isotopic evoution 66(2) calcite 66(16): 2875 ophiolite 66(2): 329 REE 66(16): 2875 chromite 66(2): 329 EXAFS 66(16): 2875 chronometry 66(2): 347 coordination 66(16): 2875 enstatite 66(2): 347 crystal growth 66(18) I-Xe ages 66(2): 347 coprecipitation 66(18) chondrules 66(2): 347 thermodynamics 66(18) 7 refractory inclusions 66(3): 52 kinetics 66(18) 3177 CAI 66(3): 521 Mn 66(18): 3177 Mg isotopes 66(3): 52 Sr/Ca 66(18): 3263 evaporation 66(3): 521 > corals 66(18): 3263 thermal evolution 66(3 sea surtace temperature 66(18) metal rich chondrites 66(4) proxy records 66(18): 3263 Weatherford, metal 66(4): 647 benthic foraminifera 66(19): 3 Gujba, meial 66(4): 647 temperature calibration 66(19) Bencubbin 66(4): 647 core tops 66( 19): 3375 siderophile elements 66(4 Little Bahama Banks 66(19): 3 condensation model 66(4) Mg/Ca 66(19): 3375 magnesium isotopes 66(4 Cu(Il) 66(22): 3943 oxygen isotopes 66(4): 683 Zn(I1) 66(22): 3943 Allende meteorite 66(4): 683 calcite 66(22): 3943 chondrules 66(4): 683 adsorption 66(22): 3943 CAI 66(4): 683 differential incorporation 66(22): 3943 laser ablation 66(4): 683 EXAFS 66(22): 3943 sulfur 66(4): 699 calcite 66(24): 4247 troilite 66(4): 699 dissolution kinetics 66(24): 4247 impact melting 66(4): 699 onal early diagenesis 66(24): 4247 vaporization 66(4): 699 is transport and reaction 66(24): 4247 breccia 66(4): 699 ~peniis thermodynamic equilibrium 66(24): 4247 evaporation 66(4) Ss 66 marine geochemistry 66(24): 4247 enstatite 66(4): 713 earin ¢ numerical model 66(24): 4247 kinetics 66(4): 713 zinc 66(1) trace elements 66(24): 4261 elemental fractionation 66(4): 7 ead 66(1 uranium isotopes 66(24): 4261 solar nebula 66(4): 713 mining 66 calcite 66(24): 4261 inclusions 66( 16): 2959 COre uranium series dating 66(24): 4261 plagioclase 66(16): 2959 composition onvection 66(12 cathodoluminescence 66(24): 426] olivine 66(16): 2959 adcumulus growth 66( 12): 2155 mass spectrometry 66(24): 4261 spinel 66(16): 2959 solidification 66(12): 2155 continental climate 66(24): 426] magnetite 66( 16): 2959 . e boundary 66(12) weathering 66(24): 4261 Maralinga 66(16): 2959 core-mantle boundary 66(12) carbonatites sequential condensation 66(16): 2959 mushy zones 66( 12 Kola Peninsula 66(5): 881 gas-solid exchange 66(16): 2959 diagram 66(12 noble gases 66(5): 881 CAI 66( 16): 2959 growl trace elements 66(5): 881 metal-troilite-magnetite 66(17 fluorite mantle plumes 66(5): 881 Fe-Ni-S-O 66(17): 3143 chondrites eutectic 66(17) refractory inclusions 66(8): 1459 shock vein 66(17): 31 6616): 997 Efremovka 66(8): 1459 high-pressure 66(17) 7onir HOH YY ultrarefractory trace element pattern 66(8) chromite 66(17) elemen9t s 66(6): 99 1459 Sixiangkou 66(17): 3143 spinel 66(! A pfaesrsoavistkei t6e6 (86)6:( 8):1 4591 459 cmaetreboorniatce se ou6s6 (1c7)h:o ndr3i1t6e1s 66(17): 3161 spinel 1Ong rowmm th spi6n6e(l1 O66 i condensation 66(8): 1459 martian meteorites 66(17): 3161 FeACHON KINCtICS OO(! olivines 66(9): 1663 2 solubility 66(17i)77:7 3+11 61 peeTr!i clalasse Renazzo 66(9): 1663 phosphate 66(17): 3161 corundum 66(12): 2123 Acfer 182 66(9): 1663 plant nutrients 66(17): 3161 diagenesis 66(22): 3901 El Djouf 001 66(9): 1663 thermal metamorphism 66(18): 3327 needles 66(22): 3901 carbonaceous chondrites 66(9): 1663 shock metamorphism 66(18): 3327 grain pitting 664 3901 glass inclusions 66(9): 1663 impacts 66(18): 3327 solid inclusions 66(22): 3901 condensation 66(9): 1663 MIL99301 66(18): 3327 fluid inclusions 66(22): 3901 evaporation 66( 1): 145 ordinary chondrites 66(18): 332 clav coatings 66(2? 390] refractory inclusions 66(1): 145 annealing 66(18): 3327 crystallization major elements 66(1): 145 Orgueil 66(23): 4177 aqueous solution 66(2 stable isotope compositions 66(1): 145 Murchison 66(23): 4177 solid solution 66(2 fractional cyrstallization 66(1): 145 carbonaceous chondrites 66(2 supersaturation 66(2 melilite zoning 66(1): 145 insoluble organic matter 66(23 distribution <¢ cooling rates 66(1): 145 organic radicals 66(23): 4177 thermal metamorphism 66(1): 163 EPR 66(23): 4177 nucleation 66 carbonaceous chondrites 66(1): 163 ENDOR 66(23): 4177 kinetics 66(2) graphitization 66(1): 163 rhenium 66(23): 4187 geochemistry naphthalene 66(1): 163 osmium isotopes 66(23): 4187 Hanford site : 66(2 opysrmoiluyms isi-sGoCt op6e6s( 1)6:6 (2)1:6 3 329 ecnasrtbatointaec e6o6u(s2 3):6 6(234)1:8 7 4187 ssoerdpitmieonnt s 66/O 0(. upper mantle 66(2): 329 ordinary 66(23): 4187 migration 66(2 Nevada 66(3): 487 Aquia aquifer 66(5): 797 Yucca Mountains 66(3): 487 He isotopes 66(5): 797 eclogite Crater Flat 66(3): 487 Mt. Vesuvius 66(6): 963 metamorphism 66(4): 625 in situ Pb-Pb dating 66(6) 1051 te isotopes 66(6) 963 isotope equilibrium 66(4): 62 FS multiple collector ICP-MS 66(6) 1051 water-rock interaction 66(6): 963 O isotopes 66( 4): 625 apatite 66(6) 1051 magma gases 66(6) 963 Nd isotope 66( 4): 625 sphene 66(6) 105] He isotopes 66(6): 963 Sm-Nd 66(4): 625 monazite 66(6) 1051 arsenic 66(17) 298 | metamorphism 66(7): 1221 excess Ar 66(6) 1067 solubility 66(17) 2981 isotopic dating 66(7): 1221 bulk diffusivity 66(6) 1067 speciation 66(17) 298 1 Maksyutov Complex, Russia 66( 1221 numerical modeling 66(6) 1067 redox chemistry 66(17): 2981 role of fluids 66(7): 1221 Dbiotite 6616) 1067 salinity 66(17): 2981 Rb/Sr dating 66(7): 1221 biotite 66(6) 1067 isotopes 66(17): 2981 eclogitization 66(7): 122] Simplon Pass, Switzerland 66(6) 1067 Owens Lake 66(17): 2981 Ar/”’ Ar 66(7): 12317 thermochronometry 66(7): 12233 7 H diffusion 66(7): 12 erromanganese crusts step heating 66( drothermal fluids geochronology 66( 1): 73 K feldspar 66(7) CO, 66(5): 759 sea-level evolution 66(1) A\r-Al dating 66( 10) meteoric water 66(5): 759 Baltic Sea 66(1): 73 granites 66(10): 1793 gas-water-rock interactions 66(5): 759 "Raex/Ba excess 66( muscovite recrystallization 66(10): 17 H isotopes 66(5): 759 barium 66(1): 73 step heating 66(10): 1793 O isotopes 66(5): 759 radium 66(1): 73 geomicrobiology ( isotopes 66(5): 759 growth rates 66(1) fayalite 66(2): 213 Vulcano Island 66(5) flood basalts olivine 66(2): 213 gases 66(8): 1409 Ethiopia 66(8): 1429 surface morphology 66(2): 213 trace metals 66(8): 1409 fractional crystallization 66(8) Acidithiobacillus ferrooxidans 66(2) diffuse low temperature fluids 66(8) 1409 ignimbrite 66(8) chemical weathering 66(2) 213 subsurface boiling 66(8) 1409 rhyolite 66(8) iron oxidation 66(2): 21 phase separation 66(8) 1409 mantle plume 66(8): 1429 microorganisms O6(2 vapor phase discharge 66(8): 1409 Oligocene 66(8): 1429 Mnill) oxidation 66(5) North Fiji basin 66(8): 1409 fluid inclusion I eptothrix discophora 66(5) copper 6619) 161) synchrotron X-ray fluorescence 66 kinetics 66(5): 773 solubility 6619): 1611 nuclear microprobe 66(4): 561 microorganisms OOS) speciation 6619): 1611 SXRF 66(4) Mn cycling 66(5): 773 vapor transport 66(9) 1611 PIXE 66(4) carbdon tsotope fractionation 66(6): 9S ore deposits 66(9) 1611 quantitative analysis 66(4): S61 methanogenesis 66(6) QR3 ivdrothermal circulation 66(10) calibration procedures 66(4): 56 DNA analysis 66(6) OR3 midocean ridge flank 66(10) hydrogen 1tsotope exchange 66(6): 983 eochemical flux 66(10): 1739 hydrogen isotope fractionation 66(6) OR4 sediment diagenesis 66(10 paddy soil 66(6): 983 reactive transport model 66(10) 66( 10): 168] Juan de Fuca ridge flank 66(10 168] methane 66(20): 3563 on 66(10 C isotopes 66(20): 3563 models 66 hydrothermal! plumes 66 stabilility 66(3 nicrobial oxidation 66(2 irbon cycle 66(3 sirvy 66010 168 | ry 66/7): 1105 66(10): 1681 s 66111 1905 6611 1 1905 Ridge 66/11) Pb 66(7 1905 anthropogs | biof 905 1105 Es spel | O66 |I f natural emissions ¢ Oligocene 66( atmospheric chemistry 6 Germany 66(10 trace metals 66(7): 1139 Mn rec luction 66( 1 9 redox 66(7): 1139 U reduction 66( olcanism 66(21) oxygen minimum zone 66(7 ens 66(18): 32y4A F sudduction recyclin eastern tropical north Pac xides 66( 18 24 bromine 66(21 atmospheric oxygen 66(21 uranium( V1) 66(18) reothermal fields 66(2 Late Archean 66(21): 37 uraninite 66(18) Central America 66(2 paleosol 66(21) m geochemistry Mount Roe 66(21) 707 adsorption 66(3) maghemite 66(15): 2801 major elements 66(21) pyrite 66(3): 383 hematite 66(15) 2801 trace elements 66(21): 37 pyrrhotite 66( 5) ferrihydrite 66(15): 2801 rare earth elements 66(21 mackinawite 66(3): 383 crystallization 66(15): 2801 geochronology XPS 66(3): 383 soil 66(15) 2801 silicate minerals 66(3): 487 zero point of charge 66(3): 383 Mars 66(15) 2801 carbonate minerals 66(3): 487 hydrosulfide gold(1) complexes 66(3) IRQ m meteorites uranium isotopes 66(3): 487 groundwater IAB complex 66( 13): 2445 thorium isotopes 66(3): 487 noble gases 66(5): 797 ICD irons 66( 13): 2445 soils 66(3): 487 paleotemperature 66(5): 797 reclassification 66(13) 2445 paleosols 66(3): 487 paleoclimate 66(5): 797 silicate inclusions 66(13) 2445 impact heating 66(13) noble gases 66( 16): 2929 liquid-solid metal fractionation 66 impact melting 66(20) solar wind 66(16): 2929 3703 clinopyroxene 66(20): 36: accretion time 66(17): 315] siderophile lodranites 66(20): 3657 Hf-W isotopes 66(17): 3151 3793 NWA 468 66(20): 3657 Allende carbonaceous chondrite 6 | 66(2 MAC 88177 66(20): 3657 3151 H isotopes 6 silicate inclusions 66(20): 3657 core formation 66(17): 3151 2) isotopes 66+ iron sulfides extinct radionuclides 66( 17 cellulose 66( mackinawite 66(5): 829 Se isotopes 66(18): 3191 climate 66(2 Fe(I])/Fe(1ll) 66(5): 829 meteorites 66( 18): 319] rodent middens 66( surface chemistry 66(5): 829 hydrothermal vents 66(18): 3191 Apolk samples 66(2 structural properites 66(5): 829 igneous rocks 66( 18): 319] "Ce-'*"Nd TEM 66(5): 829 hydride generation 66(18): 3191 4007 XRD 66(5): 829 MC-ICP-MS 66(18): 319] isotopes 66 4007 TMS 66(5): 829 tooth enamel 66(18): 3225 REE 66(2? 4(K) XPS 66(5): 829 mammals 66(18): 322 lunar crust 66 isotope geochemistry ( isotopes 66( 18) TIMS 66(22 isotope fractionation 66(6): 1095 oO isotopes 66( 18) ranium ser Mg isotopes 66(6): 1095 apatite 66/ 18): 3225 Th/U dati O isotopes 66(6): 1095 hydroxyapatite 66(18) bone 66(24) troposphere 66(6): 1095 bioapatite 66(18): 3225 ahy droxyapatite 66(24>A) Mars 66(6): 1095 isotope profiles 66( 18) uranium diffusion 66(24) lead isotopes 66(8): 1375 isotopic time-series O61 uranium adsorption 66(24): 42 aerosols 66(8): 1375 hippopotamus 66(18) diffusion-adsorption model 66(2 + TIMS 66(8): 1375 anhydrite 66(18): 3303 en isotopes 66(24 4395 temporal variation 66(8) sulfides 66(18): 3303 $395 source signatures 66(3) ion microprobe 66(18): 3303 mantle enoliths 66(24 , O isotopes 66( 11): 188] arc Magmatism 66( 18): 3303 lithospheric mantle 66(24): 43 three isotope plot 66(11): 188] andesite melt 66(18): 3303 mantle metasomatism 66(24) mass-independent fractionation 66(11) sulfur cycles 66(18): 3303 trace eleme artitioninOg66 ( 1881 Os isotopes 66(18): 3317 West rican craton 66(24) oxygen-17 anomalies 66(11): 1881 komatiites 66(18): 3317 sua supracrusté paleoclimate 66(11): 1891 mantle evolution 66( 18): 3 Pb isotopes HH1 4 phytoliths 66(11): 1891 rhenium 66(18): 3317 Nd isotopes 66 oxygen isotopes 66( 11): 189] core-mantle interaction 66 Sr 1sotopes 66(3 prairies 66(11): 1891 crustal recycling 66(18) Greenland 66(3 atmospheric H2 66(14): 2475 © sot pes 66119): 335] D/H ratios 66(14): 2475 ion microprobe 66(19 air pollution 66(14): 2475 dust 66(19): 3351 analytical methods 66(14) » quartz 66(19): 3351 noble gases 66( 14): 2483 source 66(19): 3351 nitrogen 66(14) 2483 O isotopes 66( 19 helium 66(14): 2483 unsaturated soil 66 eroundwater 66( 14): 2483 gas 66(19): 3367 hydrocarbons 66(14): 2483 microbial rf spiral groundwater 66( 14): 2483 diifusion 66(19 continental crust 66( 14): 2483 modeling 66(19 mantle deg issing OO( 14 2483 1ISOLOpeE Os isotopes 66( 14) Re-Os iso es 66 Greenland 66(14): 2615 geochronology 661 19) Archean 66(14): 2615 Exshaw Formation 66( | early Earth 66(14): 2615 mantle evolution 66(14): 2615 spinel peridotites 66(14): 2615 komatiites 66(14): 2615 ydrocarbon ate veneer 66(14): 2615 Arctic 66(20 noble gases 66( 16): 2807 lake sediments hydrocarbons 66(16): 2807 Pb isotopes 661 migration 66( 16): 2807 atmospheric depositior basin fluids 66(16): 2807 atmospheric O2 66 Delaware Basin 66( 16): 2807 ( isotopes O6( >] ppa laser microprobe 66(16): 2855 mass balance 66(21 sulfosalts 66(16): 2855 fossil plants 66(21 375 MORB 66 fractionation factor 66( 16) isotope fractionation 66( 2 OIB 66 S isotopes 66(16): 2855 pressure effect 66(21): 37 H isotopes 66( 16): 2865 brucite 66(21): 3769 » hifi TAS! O isotopes 66(16): 2865 water 66(21): 3769 6619 16 chert nodules 66(16): 2865 experiment 66(21) Th 66(9 165] periodicity 66( 16): 2865 D/H isotopes 66(21) Sm 66(9): 165] sedimentary basins 66(16): 2865 LIAB iron meteorites 66(21 Nd 66(9): 1651 Poland 66(16): 2865 pallasites 66(21): 3793 komatiites 66(9): 1651 Jurassic 66(16): 2865 Re-Os isotopes 66( 21) basaltic crust 66(9): 1651 lunar regolith grains 66(16): 2929 Pd-Ag isotopes 66(21) continental crust 66(9): 1651 Kapoeta meteorite 66(16): 2929 chronology 66(21): 37 depleted mantle 66(9): 1651 mantle plumes 66(9): 1651 mineral dissolution microbial products 66(11): 2003 marine sediments B.E.T. surface 66(17): 3055 degradation rate and pathway 66(11): 2003 biogeochemistry 66(1): 85 geometric surface 66(17): 3055 biomarkers 66(15): 2719 pyrite oxidation 66(1): 85 fractals 66(17): 3055 turbidites 66(15): 2719 iron sulfide oxidation 66(1): 85 surface morphology 66(17): 3055 Madeira abyssal plain 66(15): 2719 Mn(IV) reduction 66(1): 85 sediments 66(15): 2719 Fe(III) reduction 66(1): 85 N oxidation 66(15): 2719 nitrate reduction 66(1): 85 biomarkers 66(15): 2737 authigenic metals 66(5): 849 nanoscience Arabian Sea 66(15): 2737 sikencnes 66(5): 849 nanogeochemistry 66(5): 735 Indian Ocean 66(15): 2737 Indian Ocean 66(5): 849 critical zone 66(5): 735 sediments 66(15): 2737 precession cycles 66(5): 849 mineral-bacteria interactions 66(5): 735 oxidation 66(15): 2737 manganese carbonate formation 66(5): 867 mineral-water interactions 66(5): 735 preservation 66(20): 3573 MnO, reduction 66(5): 867 metal transport 66(5): 735 alteration 66(20): 3573 oxygen isotopes 66(5) 867 sedimentary diagenesis 66( 20): 3573 carbon isotopes 66(5): 867 Oo Cc isotopes 66(20): 3573 Baltic Sea 66(5): 867 N isotopes 66(20): 3573 Mn carbonate 66(9): 1589 organic matter bacterial degradation 66(20) marine sediments 66(2): 223 Lake Lugano 66(20): 3573 laminated sediments 66(9): 1589 Heinrich Events 66(2): 223 hydrogen isotopes 66(22): 3955 Baltic Sea 66(9): 1589 carbon isotopes 66(2): 223 methane oxidation 66(22): 3955 saline inflow 66(9): 1589 nitrogen isotopes 66(2): 223 bacteria 66(22): 3955 Mn sulfide 66(9): 1589 paleoclimate 66(2): 223 fatty acids 66(22): 3955 foraminifera 66(9): 1589 North Atlatnic 66(2): 223 sterols 66(22): 3955 bioturbation 66(10): 1759 Late Quaternary 66(2): 223 hopanols 66(22): 3955 authigenic 66(10): 1759 eastern tropical North Pacific 66(3): 457 isotope fractionation 66(22): 3955 uranium 66(10): 1759 degradation 66(3): 457 lipid biosynthesis 66(22): 3955 mobilization 66(10): 1759 denitrification 66(3): 457 Bacteria 66(23): 4085 non-steady state diagenesis 66(14): 2547 oxygen-deficient zone 66(3): 457 methane 66(23): 4085 Saguenary Fjord 66(14): 2547 amino acids 66(3): 457 Be’eri 66(23): 4085 flood event 66( 14): 2547 POC flux 66(3): 457 seeps 66(23): 4085 porewater salinity 66(14): 2547 organic sulfur 66(6): 937 preservation 66(23): 4085 diagenesis 66(14): 2547 Holocene 66(6): 937 Archaea 66(23): 4085 anaerobic nitrate production 66(14): 2547 methylthioethers 66(6): 937 methanotrophs 66(23): 4085 Fe 66(14): 2547 pyrite 66(6): 937 hopanoid triterpenoids 66(23): 4085 Mn 66(14): 2547 polysulfides 66(6): 937 extreme environments 66(23): 4085 isotopes 66(14): 2569 thiolanes 66(6): 937 organo-sulfur compounds 66(23): 4085 sediment 66(14): 2569 lakes 66(6): 937 Os geochemistry Labrador Sea 66(14): 2569 dissolved organic carbon 66(6): 955 Os isotopes 66(21): 3789 Nd isotopes 66(14): 2569 marine organic chemistry 66(6): 955 seawater 66(21): 3789 Pb isotopes 66(14): 2569 humic substances 66(6): 955 atmospheric deposition 66(21): 3789 clay-size fraction 66(14): 2569 carbohydrates 66(6): 955 *!°Pb 66(21): 3789 Quaternary 66(14): 2569 black carbon 66(6): 1025 oxygen isotopes authigenic uranium 66(17): 3085 extraction 66(6): 1025 witherite 66(1): 63 marine particles 66(17): 3085 ‘°C measurements 66(6): 1025 aragonite 66(1): 63 sediment traps 66(17): 3085 soot 66(6): 1025 carbonate minerals 66(1): 63 redox chemistry 66(17): 3085 charcoal 66(6): 1025 isotope equilbrium 66(1): 63 Sr isotopes 66(2' 0) 358 C isotopes 66(7): 1211 chemical synthesis 66(1): 63 Nd isotopes 66(20): 35: chemical processing 66(7): 1211 fractionation factor 66(1): 63 detrital flux 66(20): 3585 plant tissue 66(7): 1211 fractionation factor 66(4): 589 terrigenous sediments 66(20): 3585 cellulose 66(7): 1211 phosphoric acid 66(4): 589 sapropels 66(20): 3585 C3 66(7) 1211 carbon dioxide 66(4) 589 phosphorus geochemistry 66(23): 4069 C4 CAM 66(7): 1211 magnesite 66(4): 589 Heinrich events 66(23): 4069 Isua supracrustal belt 66(7): 1257 Fe oxides 66(23): 4069 carbon isotope 66(7): 1257 metamorphism 66(7): 1257 dysaerobic conditions 66(23): 4069 bottom water 66(23): 4069 ion microprobe 66(7): 1257 graphite 66(7): 1257 glacial conditions 66(23): 4069 = - phosphorus regeneration 66(23): 4069 = caerreinge tne nig Snat agen _ . - ae Murchison 66(10): 1851 clay mineralogy 66(17): 3093 CMhoe s6a6p(e2a4k):e 4B3a6y7 66(24): 436 meteoreiie_ 66(10): . 18125 1 oxy:g en isotopemes 66(17)7 : 3093 F NMR 66(10): 1851 paleoclimate 66(17): 3093 redox 66(24): 4367 macromolecule 66(10): 1851 Permian-Pennsylvanian 66(17): 3093 martian meteorites 'SC 66(10): 1851 Pb geochemistry shergottite 66(19): 3505 1H 66(10): 1851 concentration 66(14): 2517 petrology 66(19): 3505 trace metals 66(11): 1969 soil 66(14): 2517 major and trace elements 66(19) lipid biomarkers 66(11): 1969 partitioning 66(14): 2517 micrometeorites sapropel 66(11): 1969 isotopes 66(14): 2517 st: ony cosmic spherules 66(1): 17: 3 Mediterranean Sea 66(11): 1969 sequential extraction 66(14): 2517 Fe isotopes 66(1): 173 ODP Site 969 66(11): 1969 Pb isotopes Mg isotopes 66(1): 173 paleoclimate 66(11): 1969 ocean circulation 66(2): 257 Si isotopes 66(1): 173 redox oscillation 66(11): 2003 general circulation model 66(2): 257 Antarctica 66(1): 173 marine sediments 66(11): 2003 paleoceanography 66(2): 257 mass-dependent fractionation 66(1): 173 cell-associated lipids 66(11): 2003 transport and removal of Pb 66(2): 257 phosphate minerals partitioning 66(3): 507 beryllium 66(12): 2239 high-pressure polymorph 66(13): 2439 mantle degassing 66(3): 507 mineral/melt partitioning 66(12) merrillite 66(13): 2439 clinopyroxene 66(3): 507 cordierite 66(12): 2239 [f113}a[/f113}Ca,(PO,), 66(13): 2439 diffusion 66(4): 635 feldspar 66(12): 2239 shock veins 66(13): 2439 multicomponent diffusion 66(4): 635 mica 66(12): 2239 Suizhou meteorite 66(13): 2439 CaO-Al,0,-SiO, 66(4): 635 crustal cycle of beryllium 66(12): 2239 diffusion matrix 66(4): 635 granites 66(12): 2239 R Libyan Desert glass 66(5): 903 partition coefficient 66(12): 2267 silicate immiscibility 66(5): 903 Mg-Fe partitioning 66(12): 2267 rare earth elements graphite ribbons 66(5): 903 olivine melt 66(12): 2267 curium 66(1): | dark streaks 66(5): 903 melt structure 66(12): 2267 humic substances 66(1): 1 Tyndall effect 66(5): 903 depolymerization of melt 66(12): 2267 montmorillonite 66(1): 1 impact glass 66(5): 903 solubility experiments 66(12): 2273 laser-induced fluorescence spectroscopy vesicles 66(8): 1449 Mg/Si ratio 66(12): 2273 66(1): 1 helium diffusion 66(8): 1449 mantle 66(12): 2273 sorption 66(1): 1 noble gases 66(8): 1449 differentiation 66(12): 2273 tetrad effect 66(7): 1185 mid-ocean ridge 66(8): 1449 continental crust 66(12): 2273 fluorite 66(7): 1185 basalt 66(8): 1449 aqueous fluid 66(12): 2287 granites 66(7): 1185 carbon dioxide 66(9): 1627 solubility experiments 66(12): 228 fluid evolution 66(7): 1185 water 66(9): 1627 alkali 66(12): 2287 pigeonite 66(7): 1269 andesites 66(9): 1627 alumina 66(12): 2287 lunar ferroan anorthosite 66(7): 1269 FTIR 66(9): 1627 element partitioning 66(12): 2287 partitioning 66(7): 1269 SIMS analyses 66(9): 1627 pressure 66(12): 2287 subsolidus reequilibration 66(7): 1269 melt polymerization 66(9): 1627 temperature 66(12): 2287 pyroxenes 66(7): 1269 solubility mechanisms 66(9): 1627 O isotopes 66(12): 2299 analytical methods 66(20): 3635 melt species 66(9): 1627 U isotopes 66( 12): 2299 isotope dilution analysis 66(20): 3635 CO, solubility 66(10): 1809 Pb isotopes 66(12): 2299 Mc-ICPMS 66(20): 3635 CO, speciation 66(10): 1809 zircon 66(12): 2299 Ce anomaly 66(20): 3635 phonolite 66(10): 1809 China 66(12): 2299 rhyolites infrared 66(10): 1809 Neoproterozoic 66(12): 2299 U-Th disequilibrium 66(10): 1821 NMR 66(10): 1809 ultrahigh-pressure metamorphism 66(12) residence times 66(10): 1821 mid-ocean ridge basalts 66(12): 2073 2299 accessory phases 66(10): 1821 low-velocity zone 66(12): 2073 snowball Earth 66(12): 2299 mineral crystallization 66(10): 1821 mantle heterogeneity 66(12): 2073 peat bogs 66(13): 2307 fractionation rates 66(10): 1821 potential temperature 66(12): 2073 atmospheric deposition 66(13): 2307 piagioclase-spinel 66(12): 2073 SE Asia 66(13): 2307 S lherzolite 66(12): 2073 Holocene 66(13): 2307 basalt generation 66(12): 2073 younger Dryas 66(13): 2307 silica garnet peridotite 66(12): 2091 dust 66(13): 2307 biogenic silica 66(9): 1601 modal mineralogy 66(12): 2091 sources 66(13): 2307 aluminum 66(9): 1601 melting 66(12): 2091 aerosols 66(13): 2307 crystal chemistry 66(9): 1601 mantle 66(12): 2091 Eu 66(13): 2325 XANES/EXAFS 66(9): 1601 mineralogical effects 66(12): 2091 montmorillonite 66(13): 2325 biogenic silica 66(14): 2559 basalt 66(12): 2099 sorption 66(13): 2325 reactivity 66(14): 2559 lower mantle 66(12): 2099 cation exchange 66(13): 2325 aging 66(14): 2559 perovskite 66(12): 2099 surface complexation 66(13): 2325 diagenesis 66(14): + 559 phase relation 66(12): 2099 montmorillonite 66(13): 2335 adsorption 66(14) + 5 59 chemical composition 66(12): 2099 Ni uptake 66(13): 2335 surface chemistry 66(14): 2559 high-pressure 66(12): 2099 EXAFS 66(13): 2335 surface complexation 66(14): 2559 carbonatite 66(12): 2139 P-EXAFS 66(13): 2335 biogenic silica 66(15): 2701 experiments 66(12): 2139 neoformation 66(13) ~ apparent solubility 66(15): 2701 high-pressure 66(12): 2139 phyllosilicate 66(13): 4 2335 dissolution 66(15): 2701 kimberlite 66(12): 2139 oxygen solubility 66(13): 2349 North Atlantic 66(15): 2701 orangeite 66(12): 2139 electrolyte solutions 66(13): 2349 silicate melts high-pressure 66(12): 2193 Pitzer equations 66(13): 2349 thermodynamic modeling 66(1) experiments 66(12): 2193 arsenopyrite 66(13): 2361 activities 66(1): 93 source 66(12): 2193 As(II]) speciation 66(13): 2361 optical basicity 66(1): 93 water content 66(12): 2193 Fe(II) speciation 66(13): 2361 sulfide capacity 66(1): 93 primitive basalt 66(12): 2193 solubility experiments 66(13): 2361 activity coefficient 66(1): 93 St. Vincent 66(12): 2193 thermodynamic properties 66(13): 2361 viscosity 66(1): 125 island arc 66(12): 2193 hydrothermal fluids 66(13): 2361 tracer diffusion 66(1): 125 bimodal differentiation 66(12): 2211 zircon 66(13): 2379 models 66(1): 125 solidification fronts 66(12): 2211 U-Pb geochronology 66(13): 2379 cations 66(1): 125 basaltic sills 66(12): 2211 bias 66(13): 2379 framework 66(2): 303 silicic segregations 66(12): 2211 magnetic susceptibility 66( 13): 2732779 nuclear magnetic resonance 66(2): 303 thermal expansivity 66(12): 2231 paramagnetic 66(13): 2379 170 NMR 66(2): 303 volume-temperature relationship 66(12) provenance 66(13): 2379 11B NMR spectroscopy 66(2): 303 2231 Frantz magnetic 66(13): 2379 disorder 66(2): 303 supercooled liquid 66(12): 2231 barrier separator 66(13): 2379 aluminosilicates 66(2): 303 haplobasalts 66(12): 2231 sample preparation 66(13): 2379 borosilicates 66(2): 303 anorthite 66(12): 2231 U-Pb 66(13): 2399 Ar 66(3): 507 diopside 66(12): 2231 Th-Pb 66(13): 2399 K 66(3): 507 dilatometry 66(12): 2231 Rb-Sr 66(13): 2399 Rb 66(3): 507 equations of state 66(12): 2231 uranium disequilibrium 66(13): 2399 baddeleyite 66(13): 2399 abyssal peridotite 66(23): 4133 Sudbury Igneous Complex zircon 66(13): 2399 aluminosilicate melts (glasses) 66(23) Pt-Os isotopes 66(2): 273 apatite 66(13) 2399 4149 Re-Os isotopes 66(2): 27 phlogopite 66(13): 2399 melt structure 66(23): 4149 chondritic values 66(2) carbonatite 66(13): 2399 glass structure 66(23): 4149 meteorite impact 66(2) phoscorite 66(13): 2399 water speciation 66(23): 4149 sulfate minerals Kovdor massif 66(13): 2399 ab initio calculations 66(23): 4149 enthalpy of formation 66(10): 1839 aqueous fluid 66(13): 2421 NMR calculations 66(23): 4149 heat capacity 66(10): 1839 solubility experiments 66(13) 242 protonation model 66(2 3): 4149 high-temperature calorimetry 66(10): 1839 alkaline earth 66(13): 2421 depolymerization model 66(23): 4149 jarosite 66(16): 2841 molar volume 66(13): 2421 arc magmatism 66(24): 4287 chromate minerals 66(16): 2841 isochore 66(13): 242 basalt 66(24): 4287 solid solution 66(16): 2841 pressure 66(13): 2421 Central America 66(24): 4287 stoichiometric saturation 66(16) 841 17) temperature 66(13): 242 flux-melting 66(24): 4287 Lippmann diagram 66(16): 2841 liquid immiscibility 66(14): 2603 uranium series disequilibrium 66(24): 42 Re-Os isotopes 66(6): 1037 borosilicates 66(14): 2603 thorium 66(24): 4287 mantle sulfides 66(6): 1037 element partitioning 66(14): 2603 protactinium 66(24): 4287 laser ablation microprobe 66(6): 1037 speciation in melts 66(14): 2603 tektites 66(24): 4347 multicollector ICPMS 66(6): 1037 centrifuge separation 66(14): 2603 impact glasses 66(24): 4347 As(II1) 66(18): 3281 copper solubility 66(15): 2791 Fe local structure 66(24): 4347 orpiment 66( 18): 3281 basaltic magmas 66(15): 2791 XANES 66(24): 4347 oxidation 66(18): 3281 Cu-Fe sulfide liquid 66(15): 2791 EXAFS 66(24): 4347 reaction kinetics 66(18): 3281 silicate liquid partition coefficients 66(15) icate minerals chemical weathering 66(23): 4057 2791 weathering 66(5): 837 pyrrhotite 66(23): 4057 Cu-rich ores 66(15): 2791 granitoid 66(5): 837 acid leaching 66(23): 4057 solubility 66(16): 2915 Pb isotopes 66(5): 837 metal-depleted surface layer 66(23): 4057 water 66(16): 2915 REE 66(5): 837 air oxidation 66(23) shallow magma chambers 66(16) sphene 66(5): 83 7 IR spectroscopy 66( 23 pressure 66(16): 2915 apatite 66(5): 837 XPS 66(23): 4057 density 66(16): 2915 allanite 66(5): 837 X-ray emission spectroscopy 66( trace element partitioning 66(17): 3109 dissolution 66(5): 837 Mossbauer spectroscopy 66(23) partition coefficient 66(17): 3109 surtace chemistry 66(6): 913 surface chemistry garnet 66(17): 3109 amorphous silica 66(6): 913 surface complexation 66(19): 3389 clinopyroxene 66( 17): 3109 glass 66/6): 913 goethite 66(19): 3389 subduction 66(17): 3109 dissolution kinetics 66(6): 913 proton uptake 66(19): 3389 MORB 66(17): 3109 NMR spectroscopy 66(6): 913 potentiometric titrations 66(19): 3389 Zr-Hf 66(17): 31 alkali sorption 66(6): 913 surface charge density 66(19): 3389 Nb-Ta 66(17): 3109 surace polymerization 66(6): 9 ion-probe 66(17): 3109 surface complexation 66(6): 913 experimental petrology 66(17): 3109 aluminous spinel 66(16): 2903 adakites 66(17): 3109 diffusion coefficients 66(16): 2903 thermodynamics pyroxenites 66(17): 3109 Fe(Il) 66(16): 2903 phase equilibrium 66(19): 3431 partial melting 66(17): 3109 Mg 66(16): 2903 Gibbs Ensemble Monte Carlo 66(19) Zr 66(18): 3293 quartz 66(17): 3037 343] Hf 66(18): 3293 crystal growth 66(17): 3037 CH, 66(19): 3431 zircon 66(18): 3293 X-ray reflectivity 66(17): 3037 C,H, 66(19): 3431 hafnon 66(18): 3293 atomic force microscopy 66(17): 3037 computer simulation 66(19): 343 solubility 66(18): 3293 quartz 66(17) 3037 trace element geochemistry fractionation 66(18): 3293 clay 66(22): 3913 dust 66(9): 1569 granite 66(18): 3293 kaolinite 66(22 dust source 66(9): 1569 7 U series disequilibria 66(19): 3481 dissolution 66( rosols 66(9): 1569 MORB 66(19): 3481 kinetics 66(22): 3913 Owens Lake 66(9): 1569 basalt petrogenesis 66(19): 3481 activation energy 66(22): 3913 playa 66(9): 1569 melt generation 66(19): 3481 pH 66(22): 3913 southwest USA 66(9): 1569 melt transport 66(19): 3481 licate rocks trace elements East Pacific Rise 66(19): 3481 Fe(I1)/Fe(IIl) 66(6): 1085 platinum 66(22): 3987 Nd 66(19): 3481 Fe(Il) 66(6): LO85 osmium 66(22): 3987 Sr 66(19): 3481 Wilson's method 66(6): 1085 Sierra 66(22): 3987 Hf 66(19): 3481 GSJ standards 66(6): 1085 xenolith 66(22)>: 3987 Pb isotopes 66(19): 3481 SNC meteorites sulfide 66(22): 3987 magma chambers 66(19): 3481 basalts 66(10): 1867 palladium 66(22): 3987 trace elements 66(20): 3647 crystallization 66(10): 1867 iridium 66(22):~ 3987 partitioning 66(20): 3647 modeling 66(10): 1867 hydrous melts 66(20): 3647 redox processes 66(10): 1867 REE 66(20): 3647 phase equilibria 66(10): 1867 clinopyroxene 66(20): 3647 oxides 66(10): 1867 U geochemistry garnet 66(20): 3647 silicates 66(10): 1867 sorption 66(20): 3533 melt generation 66(23): 4133 mineral analyses 66(10): 1867 precipitation 66(20) melt transport 66(23): 4133 ar nebula iron oxides 66(20) spreading ridges 66(23): 4133 silicon carbide 66(4): 661 XANES 66(20) geochemistry 66(23): 4133 silica 66(4): 661 EXAFS 66(20) U-series disequilibria 66(23): 4133 volatilization 66(4): 661 FT-IR 66(20) porous flow 66(23): ) 4133 kinetics 66(4): 661 luminescence 66(20) trace elements 66( * 3) presolar grains 66(4): 661 uranate 66(20): 3533 2 depletion 66(5): 819 carbonate minerals 66(19): 3417 REE 66(5): 819 silicate minerals 66(19): 3417 volatiles dissolution 66(5): 819 Himalaya 66(19): 341° volcanic gases 66(21): 3811 laterites 66(7): 1197 black smokers 66(21): 3811 chemical redistribution 66(7): 1197 atmospheric oxygen 66(21): 3811 trace elements 66(7): 1197 great oxidation event 66(21): 3811 U-Th disequilibria 66(7): 1197 mantle oxidation stage 66(21): 3811 modeling 66(7): 1197 C isotopes 66(21): 3811 silicate minerals 66(8): 1335 zinc geochemistry S isotopes 66(21): 3811 Antarctica 66(8): 1335 sediments 66(9): 1549 N isotopes 66(21): 3811 McMurdo Dry Valleys 66(8): 1335 speciation 66(9): 1549 biofilms 66(8): 1335 micro-PIXE 66(9): 1549 W silicon 66(9): 1525 SXRF 66(9): 1549 germanium 66(9): 1525 EXAFS 66(9): 1549 weathering Hawaii 66(9): 1525 P-EXAFS 66(9): 1549 dissolution rates 66(15): 2665 chronosequence 66(9): 1525 principal component analysis 66(9 experimental 66(15): 2665 sequential extraction 66(9) zircon rhyolite 66(15): 2665 *"Os/**’Os 66(9): 1539 oscillatory zoning 66(2 311 glass 66(15): 2665 black shales 66(9): 1539 SHRIMP 66(2): 311 clay-size fraction 66(15): 2665 isotope geochemistry 66(9) REE 66(2): 311 hydration 66(15): 2665 Lesser Himalaya 66(9): 1539 pattern formation 66(2) chemical affinity 66(15): 2665 global budget 66(9): 1539 self-organization 66(2): 311 flushing 66(15): 2665 Re 66(9): 1539 partition coefficient 66( 16): 2887 Himalaya Mountains 66(1): 13 Os 66(9): 1539 melt inclusion 66(16): 2887 silicate minerals 66(1): 13 granite 66(14): 2583 accessory minerals 66(16):; 2887 carbonate minerals 66(1): 13 oxidation 66(14): 2583 trace elements 66(16): 2887 soil chronosequence 66(1): 13 redox 66(14): 2583 rare earth elements 66( 16): 2887 Ca/Sr 66(1): 13 Fe-reducing bacteria 66(14): 2583 petrogenesis 66(16): 2887 Sr isotopes 66(1): 13 simulation 66(14): 2583 fractional crystallization 66(16) 2RR U 66(1): 29 Monod kinetics 66( 14): 2583 partial melting 66(16): 2887 black shale 66(1): 29 chemical weathering 66(19): 3397 differentiation 66( 16): 2887 Himalaya 66(1): 29 Yamuna basin 66(19): 3397 zoning Re 66(1): 29 Himalaya 66(19): 3397 oscillatory zoning 66(3): 403 Os 66(1): 29 CO, drawdown 66(19): 3397 barite 66(3): 403 Yamuna River 66(1): 29 activation energy 06/ 19): 3397 celestite 66(3): 403 Zr 66(5): 819 chemical weathering 66(19): 3417 crystal growth 66(3): 403 mobility 66(5): 819 Sr isotopes 66(19) 3417 nonlinear dynamics 66(3): 403 AUTHOR INDEX Abdelmoula, M. 66(5): 829 Bellomo, S. 66(6): 963 “*hadwick, O. A. 66(9): 1525 Accardi, A. 66(6): 955 Belshaw, N. S. 66(4): 683 ‘hamberlain, C. P. 66(1): 13 Adam, P. 66(23): 4085 Bender, J. 66(19): 348! ‘hamorro, E. M. 66(3): 507 Adatte, T. 66(23): 4069 Bennett, V. C. 66(14): 2615 ‘han, L-H. 66(4): 615 Adelson, J. M. 66(24) Bernasconi, S. M. 66(20): 3573 ‘haroy, B. 66(8): 1401 Adler, M. 66(24): 4247 Berner. R. A. 66(21): 3757 ‘hateigner, D. 66(9): 1549 Aeschbach-Hertig, W. 66(23 Betancourt, J. L. 66(22): 3887 ‘haussidon, M. 66(19): 3351 Aeschbach-Hertig, W. 66( 7 Binet, L. 66(23): 4177 ‘heah, S-F. 66(3): 431 \iuppa, A. 66(6) 3 Bingen, B. 66(7): 1221 ‘heilletz, A. 66(10) Aléeon, J. 66(19) Birkham. T. K. 66(19): 3367 ‘hen, J. H. 66(21) Alard, O. 66(6): 1037 Bish, D. L. 66(8): 1349 ‘hen, M. 66(13): 2439 Albaréde, F. 66(9): 1499 Bleam, W. F. 66(22): 3873 ‘hen, M. 66(17): 3143 Albrecht, P. 66(23): 4085 Blichert-toft, J. 66(19): 3481 ‘heng, H. 66(24): 4287 Alekhin, Yu. V. 66(10): 1713 Blomqvist, S. 66(5): 745 ‘herniak, D. J. 66(9): 1641 Alexander, C. M. O'D. 66(1): 173 Bloom, P. R. 66(22): 3873 ‘hespo, T. M. 66(8): 1401 Alexander, M. O'D. 66(10): 1851 Blowes, D. W. 66(9): 1511 Chidthaisong, A. 66(6): 983 Alexandrov, P. 66(10): 1793 Blum, J. D. 66(1): 13 hin, K-J. 66(6): 983 Alfaro-De La Torre, Ma. C. 66(20): 3549 Blum, J. D. 66(19): 3417 ‘hipera, S. J. 66(8): 1349 Allard, P. 66(6): 963 Blundy, J. D. 66(17): 3109 ‘ipriani, C. 66(24): 4347 Aller, R. C. 66(11): 2003 Blundy, J. D. 66(20): 3647 ‘ipriani, C. 66(5): 881 Al-Shaeib, Z. 66(22): 3901 Blundy, J. D. 66(3): 507 ‘irroe. L. A. 66(6): 1025 Aluwihare, L. I. 66(6): 955 Bodnar, R. J. 66(16): 2887 ‘larke, J. F. 66(5): 797 Ambrosi, J.-P. 66(14): 2583 Bohn, M. 66(19): 3505 ‘lauer, N. 66(7): 1197 Amelin, Y. 66(13): 2399 Boily, J.-F. 66(19): 3389 ocozza, C. 66(3): 431 Anastasio,C . 66(23): 4047 Boiron, M.-C. 66(8): 1401 Cody, G. D. 66(10): 1851 Anderson, L. C. D. 66(17): 3017 Bolllhéfer, A. 66(8) 375 ole. D. R. 66(21): 3769 Anderson, R 66( 10): 1759 Bonnin-Mosbah, M. 66(4): 561 ‘ollerson, K. D. 66(17): 31 Anderson, R. F. 66(17): 3085 Borg, L. E. 66(11): 2025 ooper, R. F. 66(4): 661 Andersson, C. 66(5): 745 Borg, L. E. 66(11): 2037 orrin, L. 66(15): 2701 Archibald, S. M. 66(9) | Bosze. S. 66(6): 997 oston, J. A. 66(17): 30 Armstrong, L. 66(12): 2287 Bourcier, W. 66(6): 913 Coughlin, J. U. 66(20) Arndrsson, S. 66(23): 4015 Boursiquot, S. 66(5): 829 ‘owen, J. P. 66(20) Asanov, I. P. 66(23) ] Boyanov, M. I. 66(22): 3855 reaser, R. A. 66(19) Ash, R. D. 66(2): 347 Boyce, A. J. 66(16): 2 reaser, R. A. 66(4) Ash, R. D. 66(4): 683 Bradbury, M. H. 66(13): 232 ‘roudace, I. W. 66(6): 1011 Astilleros, J. M. 66(18): 3177 Bradbury, M. H. 66(13): 23 ygan, R. T. 66(14): 2541 Atudoree, V. N. 66(16): 2865 Bradley, J. P. 66(4): 661 Aubert, D. 66(19): 3339 srandstitte 66(9): 1663 12 _ Austrheim, H. 66(7 ab 221 “ 7 ore ; “am : 7 66( 16) . -2 959 aDaihnl,gr enR,. SRC.E SyA:. 662(51375): 2981 Avei, R. 66(10) Brasse. S. 66(8): 1409 2: a" Ayalew D. 66(8) 2 Brennan, S. T. 66(15): 2683 mae, 5. S. GAN}: 29 ‘ : Dalai, T. K. 66(19): 3397 Brennwald, M. 66(23): 4103 “ uk ‘ Das Sharma, S. 66(4): 589 BBaa=aeeveFyey enensns.s ,, ’ BB.. 6666((1133)): :3) : o22 2J333e255 BBrrooookkeerr,, RR.. AA.. 6666((31)0:Sia) : 5c0el1 e8 09 DDaau1vnuim eass,, GS.. F.6 r66(6/164 )(:1 7)):: 225358833315 25 Baker, J 66(20): 3635 Brophy I. G. 66(15) 2791 Davies, G. R. 66(10): 1821 Baker, J. A. 66(6): 1051 Brugger, J. 66(20): 3615 Davis. A. M. 66(3): 521 Balaganskaya, E. G. 66(5): 881 Bruland, K. W. 66(17): 3063 Davis, A. M. 66(4): 635 Balistrieri, L. S. 66(7) 113 Brumsack, H.-J. 66 11) 1969 Davis, J. A. 66(17): 301 Ball, L. 66(19): 3481 Bryan, S. E. 66(18): 3211 Davis. J. A. 66(7): 1119 Ballentine, C. J. 66(14): 2483 Budahn, J. R. 66(9): 1569 Banfield, J. F. 66(15): 2665 Bunker, B. A. 66(22): 3855 DDee CCaarrlvoa,l hEo., | H. 6M6.( 8):6 6(8)1:3 23 1409 Banfield, J. F. 66(2): 213 Burdloff, D. 66(2) de Combarieu, M. 66( 14): 2583 BBBaaarrrbbdiee.yr, iE ,. P6.6 \(.6 56)6(:86 )(:2 08)4:9 1 42935 73 BBByuucrrhkhkeao,nv ,, I. R. T.A .Y .6 6Y(.9 P).: 6 66(61(1925)38 )9 dDee flLaanndgree,, GB.. 6J.6 (6164()7:) : 25141771 Del Nero, M. 66(19): 3339 Bardoux,G . 66(2): 223 Delaney, J. S. 66(1): 173 Baron, D. 66(16): 2841 alas, G. 66(9): 1601 Demaiffe. D. 66(5): 881 Barron, V. 66(15): 2801 ama, J. 66(22): 3913 DeMaster, D. J. 66(15): 2701 Barrat, J. A. 66(19): 3505 ampbell, A 66(4): 647 DePaolo. D. J. 66(19): 348] Barth, M. G. 66(24): 4325 ‘ampbell, I. H. 66(9): 1651 DePaolo, D. J. 66(6): 1067 Bau, M. 66(8): 1409 andela, P. A. 66(21): 3677 Dequincey, G. 66(7): 1197 Baxter, E. F. 66(6): 1067 andela, P. A. 66(21): 3719 Derenne, S. 66(23): 4177 Beard, B. L. 66(17): 2995 ‘appellen, P. V. 66(14): 2559 Derry, L. A. 66(9): 1525 Beary E. S. 66(2): 273 arignan, J. 66(18): 3191 Devol, A. H. 66(3): 457 Beck, K. M. 66(16): 2875 “arroll, S. A. 66(6): 913 Diakonov, I. |. 66(20): 3599 Beck, L. 66(9): 1601 ‘asey, W. H. 66(4): 577 Dias, R. F. 66(15): 2755 Becker, H. 66(23): 4187 ‘ave, R. R. 66(11): 1905 Dingwell, D. B. 66(12): 2231 Becker, R. H. 66(16): 2929 erling, T. E. 66(18): 3225 Dinewell, D. B. 66(14): 2603 Beckett, J. R. 66(1): 93 Chabaux, F. 66(7): 1197 Dixit, S. 66(14): 2559 Beckett, J. R. 66(4): 661 Chabiron, A. 66(8): 1401 Dohnalkova, A. 66(18): 3247 Beerling, D. J. 66(21): 3757 Chacko, T. 66(19): 3441 Dorfman, A. M. 66(14): 2603

ebook img

Geochimica et Cosmochimica Acta 2002: Vol 66 Index PDF

15 Pages·2002·3.4 MB·English
by  
#periodicals #sim_microfilm #pub_geochimica-et-cosmochimica-acta
Save to my drive
Quick download
Download
Upgrade Premium
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Geochimica et Cosmochimica Acta 2002: Vol 66 Index

SUBJECT INDEX diffusion 66(8): 131] adsorption 66(15 clay mineralogy 6613) | fluid inclusions ¢ noble gases 66(8): 1311 halite 66(15 ab initio calculations density functional theory 66(2 “He 66(8): 1311 Silurian aquo 66(24): 4223 rare earth elements 66(8 23 hexaquo 66(24): 4223 McMurdo Dry Valleys 66(8) | electron transfer 66(24): 422 Antarctica 66(8): 1323 kinetics 66(24): 4223 iron 66(8): 1323 oxygenation 66(24): 4223 manganese 66(8): 132 hydrolysis 66(24): 4223 redox cycling 66(8) iminosilicate melts water column 66(8) activation energy 66(1): 109 microbial reduction 66(8): 132 tracer diffusion 66(1): 109 bromine 66(8): 1385 silica 66(1): 109 partition coefficient 66(38): 138 albite 66(1): 109 evaporites 66(8): 1387 jadeite 66(1): 109 halite 66(8): 1387 glass 66(2): 291 kainite 66(8): 1387 biomine hydrous melts 66(2): 291 sylvite 66(8 1387 Fe isotopes oxygen sites 66(2): 29] carnallite 66(8) 387 isotope fra nuclear magnetic resonance 66(2): 29 bischofite 66(8): 1387 ueous geochemistry Henry's law 66(8): 1387 estuaries 66(3): 403 copper isotopes 6619): 1499 humics 66(3): 403 Zinc isotopes 6619): 1499 metals 66(3): 403 anion exchange 66(9): 1499 complexati copper 66( 3): 403 chromatography 66(9): 1499 EDTA 66(1 cobalt 66(3): 403 equilibrium fractionation 66(9): 1499 complexation 66(3): 403 acid mine drainz 66(9): 1511 binding 66(3): 403 weathering 66(9): 1511 modeling 66(3): 403 sulfide minerals 66(9) goethite 66(3): 431 column experiment 66 dissolution 66(3) metal attenuation 66(9 siderophores 66(3) acid neutralization 66( temperature 66(3): 431 Kidd Creek 66(9) trihydroxamate 66(3): 431 corundum 66(9) desferrioxamine 66(3): 431 solubility 66(9 biogenic silica 66(3): 439 aluminum aq us Complexes 66(9) 2) issolutior opal 66(3): 439 corundum in CaCl, 66(9): 1621 AFM 66( Si cycle 66(3): 439 thermodynamics 66(9 dissolution 66(3): 439 hydroge " e 66(10) kinetics 66(3): 439 dissociation constants 66( 10 flow-through experiment 66(3): 439 sulfur 66(10): 1713 phytoplankton 66(3): 439 surface complexation 66( I( oxygen exchange 66(4): 577 polysulfanes 66(10): 1713 kinetics 66(4): 577 lava-seawater interactions 170-NMR 66(4): 577 hydrothermal fluids 66( aluminum 66(4): 577 magmatic volatiles 66(11 oil field brines 66(4): 615 subaqueous volcanism 66 Li isotopes 66(4): 615 Co 66411): 1943 seawater 66(4): 615 Atlantic Ocean 66(11) evaporation 66(4): 615 trace elements 66(11) Messinian 66(4): 615 biogeochemistry 66(1 1 Fe(II) OXY hydroxides 66(5) BATS 66(11): 1943 colloids 66(5): 745 residence time 66(11 745 Ca adsorption 66(5) Al 66(11): 2013 phosphate adsorption 66(5) fluoride complexes 66(1 1 salinity gradient 66(5): 745 supercritical fluids 66(11 chromate 66(5): 783 thermodynamic properties 6¢ barite 66(5): 783 acid chemistry 66( 14): 2499 hydrogel 66(5): 783 subzero temperatures 66(14 diffusion 66(5): 783 geochemical model 66(14 t insport Zn 66(7): 1119 Euro6p6(a 14 ): 2499 XAFS spectroscor ferrihydrite 66(7): 1119 » carbonic acid 66(14): 2529 vo sorption 66(7): 1119 dissociation constants 66(14 166120): 354 EXAFS 66(7): 1119 seawater 66( 14): 2529 position 66(2 goethite 66(8): 1305 pKI 66( 14): 2529 mobility 66(20 surface 66(8): 1305 pK2 66(14) 2529 lake sediments sorption 66(8): 1305 birnessite 66(15): 26 diagenesis 66( uranyl 66(8): 1305 heavy metal 66(15) ) Eu 66(20): 3599 molecular mechanics 66(8): 1305 Zn 66(15): 2639 complexation 66(20 solute transport 66(8): 1311 Pb 66( 15): 2639 acetate 66(2 34900 low permeability 66(8): 1311 Cu 66(15): 2639 potentiometr method 66(. 1) 3599 elevated temperatures 66/ 20): 3599 microorganisms 66(23): 4047 petrogenesis 66(12): 2167 Cu 66(20): 3615 photochemistry 66(23): 4047 magma chamber 66(12): 2167 chloride 66(20): 3615 noble gases 66(23): 4103 crystallization 66(12): 2167 hydrothermal fluids 66(20): 3615 groundwater 66(23): 4103 phase equilibria 66(12): 2167 complexation 66(20): 3615 fractionation 66(23): 4103 moon 66(14) porphyry copper deposits 66(20) supersaturation 66(23): 4103 earth 66(14): 2631 Mo 66(21): 3679 quasi-saturation 66(23): 4103 eucrites 66(14): 2631 kaolinite 66(21): 367 entrapped air 66(23): 4103 impacts 66(14): 2631 catalysis 66(21): 3679 soil 66(23) 4103 chromium 66(14): 2631 clay minerals 66(21): 3679 manganese 66(23): 4119 origin 66(14): 2633 speciation 66(21): 3679 chromium 66(23): 4119 giant impact hypothesis 66(14): 263 3 kinetics 66(21): 3679 oxidation 66(23): 4119 bulk composition 66(14): 2633 hydrothermal fluids 66(21): 3693 sorption 66(23): 4119 moon 66(14): 2633 oceanic crust 66(21): 3693 dissolution 66(23): 4119 EXAFS spectroscopy 66( 15): 2639 seafloor hydrothermal systems 66(21 XPS 66(23): 4119 biogeochemistry 3693 AFM 66(23): 4119 marine sediments 66(7): 1171 REE 66(21): 3693 SEM 66(23): 4119 sapropels 66(7) trace elements 66(21): 3693 ICP 66(23): 4119 phosphate cycling 66(7) low temperature 66(21): 3693 forsterite 66(23): 4165 organic matter 66(7) Au 66(21): 3719 enstatite 66(23): 4165 Fe oxides 66(7) 71 speciation 66( 21): 37 aqueous silica 66( 23): 4165 anoxia 66(7) solubility 66(21) mantle fluids 66(23): 4165 silicate melts 66(21): 3719 metamorphic fluids 66(23): 4165 brine 66(21): 23 719 experimental petrology 66(23): 4165 seawater evolution 66(21): 3733 solubility in water 66(23): 4165 carbonate minerals evaporite 66(21): ) 23772323 Ga-Si complexes 66(24): 4203 Upper Ordovician 66(2): 241 halite 66(21): 3733 Al-Si complexes 66(24): 4203 epeiric sea 66(2): 241 fluid inclusions 66(21) metal coordination 66(24): 4203 paleooceanography 66(2): 241 Danube 66(21): 3839 71 Ga NMR 66(24): 4203 Nd isotopes 66(2): 241 river water 66(21): 3839 Ga K edge XAFS 66(24): 4203 Sm/Nd ratios 66(2): 241 major elements 66(21): 3839 hydolysis 66(24): 4203 sea level 66(2): 241 C isotopes 66(21): 3839 polymerization 66(24): 4203 Sr isotopes 66(4): 595 O isotopes 66( 21): 3839 Marcus theory 66(24): 4223 glacial meltwaters 66(4): 595 S isotopes 66( 21): 3839 limnology 66(24): 4235 Canadian Rockies 66(4): 595 H isotopes 66(21): 3839 saline lakes 66(24): 4235 carbonate weathering 66(4): 595 Sr isotopes 66( 21): 3839 salinity 66(24): 4235 coccoliths 66(6): 927 biogeochemistry 66(22): 3855 equation of state 66(24): 4235 Emiliania huxleyi 66(6): 927 U 66(22): 3855 major ions 66(24): 4235 paleoclimate 66(6): 927 bacteria 66(22) CTD 66(24): 4235 paleotemperature proxies 66(6) 927 transport 66(22 Nd speciation 66(24): 4311 Sr/Ca ratio 66(6): 927 metals 66(22): chloride complexes 66(24): 4311 calcite precipitation 66(7): 1159 XAFS 66(22) formation constants 66(24): 4311 Meg~~* removal 66(7): 1159 EXAFS 66(22) spectroscopy 66(24): 4311 H+ removal 66(7): 1159 XANES 66(22): 3873 aqueous solutions 66(24): 4311 biogeochemistry 66(7): 1159 ligand exchange 66(22): 38 hydrothermal systems 66(24): 4311 foraminifera 66(7): 1159 metal-organic complexes 66( arc magmatism ALH84001 66(7): 1285 surface chemistry 66(22): 387 Indonesia 66(15): 2771 SNC meteorites 66(7) adsorption 66(22): 3873 arc-continent collision 66(15): 2771 Mars 66(7): 1285 methyl mercury 66(22): 38 22 radiogenic isotopes 66(15): 2771 aqueous alteration 66(7) soil organic matter 66(22): 3873 trace elements 66(15): 2771 ostracods 66(10): 1701 Cr 66(22): 3927 continental subduction 66(15): 2771 ( isotopes 66(10) 1701 leaching 66(22): 3927 O isotopes 66( 10): 1701 dissolution kinetics 66(22): 3927 B isotope fractionation 66(10): 1701 cement phases 66(22): 3927 calcite 66(10): 1701 ore processing 66(22): 3927 barium scallop 66(10): 1727 hydrocalumite 66(22): 3927 zoning 66(9): 1641 shell 66(10): 1727 hydrogarnet 66(22): 3927 diffusion 66(9): 1641 isotopes 66(10): 17 methane 66(22): 3971 feldspar 66(9): 1641 growth rate 66(10): 1727 brine 66(22): 3971 Rutherford backscattering 66(9): 1641 coral 66(11): 1955 phase relations 66(22): 3971 basalts ( isotopes 66(11): 1955 thermodynamic properties 66(22): 3971 Mars 66(11): 2025 O isotopes 66(11): 1955 basalt 66(23): 4015 meteorites 66(11): 2025 light 66(11): 1955 surface water 66(23): 4015 crust 66(11): 2025 feeding 66(11): 1955 groundwater 66(23): 4015 mantle oxidation state 66(11): 2025 Porites compressa 66(11): 1955 Iceland 66(23): 4015 oxygen fugacity 66(11): 2025 land snails 66(11): 1987 solubility 66(23): 4015 mantle 66(11): 2025 C isotopes 66(11): 1987 mineral composition 66(23): 4015 Rb-Sr 66(11): 2025 O isotopes 66(11): 1987 thermodynamic properites 66(23): 4015 Sm-Nd 66(11): 2025 isotopic composition 66(11): 198 Mn 66(23): 4047 Mars 66(11): 2037 vegetation 66(11): 1987 oxidation 66(23): 4047 lherzolitic shergottites 66(11): 2037 rainfall 66(11): 1987 photo-oxidation 66(23): 4047 ages 66( 11): 2037 dolomite 66(14): 2541 superoxide 66(23): 4047 Rb-Sr isotopes 66(11): 2037 computer simulation 66(14): 2541 singlet oxygen 66(23): 4047 Sm-Nd isotopes 66( 11): 2037 impurities 66(14): 2541 humics 66(23): 4047 field relations 66(12): 2167 bulk 66(14): 2541 surface 66(14): 2541 isotopic evoution 66(2) calcite 66(16): 2875 ophiolite 66(2): 329 REE 66(16): 2875 chromite 66(2): 329 EXAFS 66(16): 2875 chronometry 66(2): 347 coordination 66(16): 2875 enstatite 66(2): 347 crystal growth 66(18) I-Xe ages 66(2): 347 coprecipitation 66(18) chondrules 66(2): 347 thermodynamics 66(18) 7 refractory inclusions 66(3): 52 kinetics 66(18) 3177 CAI 66(3): 521 Mn 66(18): 3177 Mg isotopes 66(3): 52 Sr/Ca 66(18): 3263 evaporation 66(3): 521 > corals 66(18): 3263 thermal evolution 66(3 sea surtace temperature 66(18) metal rich chondrites 66(4) proxy records 66(18): 3263 Weatherford, metal 66(4): 647 benthic foraminifera 66(19): 3 Gujba, meial 66(4): 647 temperature calibration 66(19) Bencubbin 66(4): 647 core tops 66( 19): 3375 siderophile elements 66(4 Little Bahama Banks 66(19): 3 condensation model 66(4) Mg/Ca 66(19): 3375 magnesium isotopes 66(4 Cu(Il) 66(22): 3943 oxygen isotopes 66(4): 683 Zn(I1) 66(22): 3943 Allende meteorite 66(4): 683 calcite 66(22): 3943 chondrules 66(4): 683 adsorption 66(22): 3943 CAI 66(4): 683 differential incorporation 66(22): 3943 laser ablation 66(4): 683 EXAFS 66(22): 3943 sulfur 66(4): 699 calcite 66(24): 4247 troilite 66(4): 699 dissolution kinetics 66(24): 4247 impact melting 66(4): 699 onal early diagenesis 66(24): 4247 vaporization 66(4): 699 is transport and reaction 66(24): 4247 breccia 66(4): 699 ~peniis thermodynamic equilibrium 66(24): 4247 evaporation 66(4) Ss 66 marine geochemistry 66(24): 4247 enstatite 66(4): 713 earin ¢ numerical model 66(24): 4247 kinetics 66(4): 713 zinc 66(1) trace elements 66(24): 4261 elemental fractionation 66(4): 7 ead 66(1 uranium isotopes 66(24): 4261 solar nebula 66(4): 713 mining 66 calcite 66(24): 4261 inclusions 66( 16): 2959 COre uranium series dating 66(24): 4261 plagioclase 66(16): 2959 composition onvection 66(12 cathodoluminescence 66(24): 426] olivine 66(16): 2959 adcumulus growth 66( 12): 2155 mass spectrometry 66(24): 4261 spinel 66(16): 2959 solidification 66(12): 2155 continental climate 66(24): 426] magnetite 66( 16): 2959 . e boundary 66(12) weathering 66(24): 4261 Maralinga 66(16): 2959 core-mantle boundary 66(12) carbonatites sequential condensation 66(16): 2959 mushy zones 66( 12 Kola Peninsula 66(5): 881 gas-solid exchange 66(16): 2959 diagram 66(12 noble gases 66(5): 881 CAI 66( 16): 2959 growl trace elements 66(5): 881 metal-troilite-magnetite 66(17 fluorite mantle plumes 66(5): 881 Fe-Ni-S-O 66(17): 3143 chondrites eutectic 66(17) refractory inclusions 66(8): 1459 shock vein 66(17): 31 6616): 997 Efremovka 66(8): 1459 high-pressure 66(17) 7onir HOH YY ultrarefractory trace element pattern 66(8) chromite 66(17) elemen9t s 66(6): 99 1459 Sixiangkou 66(17): 3143 spinel 66(! A pfaesrsoavistkei t6e6 (86)6:( 8):1 4591 459 cmaetreboorniatce se ou6s6 (1c7)h:o ndr3i1t6e1s 66(17): 3161 spinel 1Ong rowmm th spi6n6e(l1 O66 i condensation 66(8): 1459 martian meteorites 66(17): 3161 FeACHON KINCtICS OO(! olivines 66(9): 1663 2 solubility 66(17i)77:7 3+11 61 peeTr!i clalasse Renazzo 66(9): 1663 phosphate 66(17): 3161 corundum 66(12): 2123 Acfer 182 66(9): 1663 plant nutrients 66(17): 3161 diagenesis 66(22): 3901 El Djouf 001 66(9): 1663 thermal metamorphism 66(18): 3327 needles 66(22): 3901 carbonaceous chondrites 66(9): 1663 shock metamorphism 66(18): 3327 grain pitting 664 3901 glass inclusions 66(9): 1663 impacts 66(18): 3327 solid inclusions 66(22): 3901 condensation 66(9): 1663 MIL99301 66(18): 3327 fluid inclusions 66(22): 3901 evaporation 66( 1): 145 ordinary chondrites 66(18): 332 clav coatings 66(2? 390] refractory inclusions 66(1): 145 annealing 66(18): 3327 crystallization major elements 66(1): 145 Orgueil 66(23): 4177 aqueous solution 66(2 stable isotope compositions 66(1): 145 Murchison 66(23): 4177 solid solution 66(2 fractional cyrstallization 66(1): 145 carbonaceous chondrites 66(2 supersaturation 66(2 melilite zoning 66(1): 145 insoluble organic matter 66(23 distribution <¢ cooling rates 66(1): 145 organic radicals 66(23): 4177 thermal metamorphism 66(1): 163 EPR 66(23): 4177 nucleation 66 carbonaceous chondrites 66(1): 163 ENDOR 66(23): 4177 kinetics 66(2) graphitization 66(1): 163 rhenium 66(23): 4187 geochemistry naphthalene 66(1): 163 osmium isotopes 66(23): 4187 Hanford site : 66(2 opysrmoiluyms isi-sGoCt op6e6s( 1)6:6 (2)1:6 3 329 ecnasrtbatointaec e6o6u(s2 3):6 6(234)1:8 7 4187 ssoerdpitmieonnt s 66/O 0(. upper mantle 66(2): 329 ordinary 66(23): 4187 migration 66(2 Nevada 66(3): 487 Aquia aquifer 66(5): 797 Yucca Mountains 66(3): 487 He isotopes 66(5): 797 eclogite Crater Flat 66(3): 487 Mt. Vesuvius 66(6): 963 metamorphism 66(4): 625 in situ Pb-Pb dating 66(6) 1051 te isotopes 66(6) 963 isotope equilibrium 66(4): 62 FS multiple collector ICP-MS 66(6) 1051 water-rock interaction 66(6): 963 O isotopes 66( 4): 625 apatite 66(6) 1051 magma gases 66(6) 963 Nd isotope 66( 4): 625 sphene 66(6) 105] He isotopes 66(6): 963 Sm-Nd 66(4): 625 monazite 66(6) 1051 arsenic 66(17) 298 | metamorphism 66(7): 1221 excess Ar 66(6) 1067 solubility 66(17) 2981 isotopic dating 66(7): 1221 bulk diffusivity 66(6) 1067 speciation 66(17) 298 1 Maksyutov Complex, Russia 66( 1221 numerical modeling 66(6) 1067 redox chemistry 66(17): 2981 role of fluids 66(7): 1221 Dbiotite 6616) 1067 salinity 66(17): 2981 Rb/Sr dating 66(7): 1221 biotite 66(6) 1067 isotopes 66(17): 2981 eclogitization 66(7): 122] Simplon Pass, Switzerland 66(6) 1067 Owens Lake 66(17): 2981 Ar/”’ Ar 66(7): 12317 thermochronometry 66(7): 12233 7 H diffusion 66(7): 12 erromanganese crusts step heating 66( drothermal fluids geochronology 66( 1): 73 K feldspar 66(7) CO, 66(5): 759 sea-level evolution 66(1) A\r-Al dating 66( 10) meteoric water 66(5): 759 Baltic Sea 66(1): 73 granites 66(10): 1793 gas-water-rock interactions 66(5): 759 "Raex/Ba excess 66( muscovite recrystallization 66(10): 17 H isotopes 66(5): 759 barium 66(1): 73 step heating 66(10): 1793 O isotopes 66(5): 759 radium 66(1): 73 geomicrobiology ( isotopes 66(5): 759 growth rates 66(1) fayalite 66(2): 213 Vulcano Island 66(5) flood basalts olivine 66(2): 213 gases 66(8): 1409 Ethiopia 66(8): 1429 surface morphology 66(2): 213 trace metals 66(8): 1409 fractional crystallization 66(8) Acidithiobacillus ferrooxidans 66(2) diffuse low temperature fluids 66(8) 1409 ignimbrite 66(8) chemical weathering 66(2) 213 subsurface boiling 66(8) 1409 rhyolite 66(8) iron oxidation 66(2): 21 phase separation 66(8) 1409 mantle plume 66(8): 1429 microorganisms O6(2 vapor phase discharge 66(8): 1409 Oligocene 66(8): 1429 Mnill) oxidation 66(5) North Fiji basin 66(8): 1409 fluid inclusion I eptothrix discophora 66(5) copper 6619) 161) synchrotron X-ray fluorescence 66 kinetics 66(5): 773 solubility 6619): 1611 nuclear microprobe 66(4): 561 microorganisms OOS) speciation 6619): 1611 SXRF 66(4) Mn cycling 66(5): 773 vapor transport 66(9) 1611 PIXE 66(4) carbdon tsotope fractionation 66(6): 9S ore deposits 66(9) 1611 quantitative analysis 66(4): S61 methanogenesis 66(6) QR3 ivdrothermal circulation 66(10) calibration procedures 66(4): 56 DNA analysis 66(6) OR3 midocean ridge flank 66(10) hydrogen 1tsotope exchange 66(6): 983 eochemical flux 66(10): 1739 hydrogen isotope fractionation 66(6) OR4 sediment diagenesis 66(10 paddy soil 66(6): 983 reactive transport model 66(10) 66( 10): 168] Juan de Fuca ridge flank 66(10 168] methane 66(20): 3563 on 66(10 C isotopes 66(20): 3563 models 66 hydrothermal! plumes 66 stabilility 66(3 nicrobial oxidation 66(2 irbon cycle 66(3 sirvy 66010 168 | ry 66/7): 1105 66(10): 1681 s 66111 1905 6611 1 1905 Ridge 66/11) Pb 66(7 1905 anthropogs | biof 905 1105 Es spel | O66 |I f natural emissions ¢ Oligocene 66( atmospheric chemistry 6 Germany 66(10 trace metals 66(7): 1139 Mn rec luction 66( 1 9 redox 66(7): 1139 U reduction 66( olcanism 66(21) oxygen minimum zone 66(7 ens 66(18): 32y4A F sudduction recyclin eastern tropical north Pac xides 66( 18 24 bromine 66(21 atmospheric oxygen 66(21 uranium( V1) 66(18) reothermal fields 66(2 Late Archean 66(21): 37 uraninite 66(18) Central America 66(2 paleosol 66(21) m geochemistry Mount Roe 66(21) 707 adsorption 66(3) maghemite 66(15): 2801 major elements 66(21) pyrite 66(3): 383 hematite 66(15) 2801 trace elements 66(21): 37 pyrrhotite 66( 5) ferrihydrite 66(15): 2801 rare earth elements 66(21 mackinawite 66(3): 383 crystallization 66(15): 2801 geochronology XPS 66(3): 383 soil 66(15) 2801 silicate minerals 66(3): 487 zero point of charge 66(3): 383 Mars 66(15) 2801 carbonate minerals 66(3): 487 hydrosulfide gold(1) complexes 66(3) IRQ m meteorites uranium isotopes 66(3): 487 groundwater IAB complex 66( 13): 2445 thorium isotopes 66(3): 487 noble gases 66(5): 797 ICD irons 66( 13): 2445 soils 66(3): 487 paleotemperature 66(5): 797 reclassification 66(13) 2445 paleosols 66(3): 487 paleoclimate 66(5): 797 silicate inclusions 66(13) 2445 impact heating 66(13) noble gases 66( 16): 2929 liquid-solid metal fractionation 66 impact melting 66(20) solar wind 66(16): 2929 3703 clinopyroxene 66(20): 36: accretion time 66(17): 315] siderophile lodranites 66(20): 3657 Hf-W isotopes 66(17): 3151 3793 NWA 468 66(20): 3657 Allende carbonaceous chondrite 6 | 66(2 MAC 88177 66(20): 3657 3151 H isotopes 6 silicate inclusions 66(20): 3657 core formation 66(17): 3151 2) isotopes 66+ iron sulfides extinct radionuclides 66( 17 cellulose 66( mackinawite 66(5): 829 Se isotopes 66(18): 3191 climate 66(2 Fe(I])/Fe(1ll) 66(5): 829 meteorites 66( 18): 319] rodent middens 66( surface chemistry 66(5): 829 hydrothermal vents 66(18): 3191 Apolk samples 66(2 structural properites 66(5): 829 igneous rocks 66( 18): 319] "Ce-'*"Nd TEM 66(5): 829 hydride generation 66(18): 3191 4007 XRD 66(5): 829 MC-ICP-MS 66(18): 319] isotopes 66 4007 TMS 66(5): 829 tooth enamel 66(18): 3225 REE 66(2? 4(K) XPS 66(5): 829 mammals 66(18): 322 lunar crust 66 isotope geochemistry ( isotopes 66( 18) TIMS 66(22 isotope fractionation 66(6): 1095 oO isotopes 66( 18) ranium ser Mg isotopes 66(6): 1095 apatite 66/ 18): 3225 Th/U dati O isotopes 66(6): 1095 hydroxyapatite 66(18) bone 66(24) troposphere 66(6): 1095 bioapatite 66(18): 3225 ahy droxyapatite 66(24>A) Mars 66(6): 1095 isotope profiles 66( 18) uranium diffusion 66(24) lead isotopes 66(8): 1375 isotopic time-series O61 uranium adsorption 66(24): 42 aerosols 66(8): 1375 hippopotamus 66(18) diffusion-adsorption model 66(2 + TIMS 66(8): 1375 anhydrite 66(18): 3303 en isotopes 66(24 4395 temporal variation 66(8) sulfides 66(18): 3303 $395 source signatures 66(3) ion microprobe 66(18): 3303 mantle enoliths 66(24 , O isotopes 66( 11): 188] arc Magmatism 66( 18): 3303 lithospheric mantle 66(24): 43 three isotope plot 66(11): 188] andesite melt 66(18): 3303 mantle metasomatism 66(24) mass-independent fractionation 66(11) sulfur cycles 66(18): 3303 trace eleme artitioninOg66 ( 1881 Os isotopes 66(18): 3317 West rican craton 66(24) oxygen-17 anomalies 66(11): 1881 komatiites 66(18): 3317 sua supracrusté paleoclimate 66(11): 1891 mantle evolution 66( 18): 3 Pb isotopes HH1 4 phytoliths 66(11): 1891 rhenium 66(18): 3317 Nd isotopes 66 oxygen isotopes 66( 11): 189] core-mantle interaction 66 Sr 1sotopes 66(3 prairies 66(11): 1891 crustal recycling 66(18) Greenland 66(3 atmospheric H2 66(14): 2475 © sot pes 66119): 335] D/H ratios 66(14): 2475 ion microprobe 66(19 air pollution 66(14): 2475 dust 66(19): 3351 analytical methods 66(14) » quartz 66(19): 3351 noble gases 66( 14): 2483 source 66(19): 3351 nitrogen 66(14) 2483 O isotopes 66( 19 helium 66(14): 2483 unsaturated soil 66 eroundwater 66( 14): 2483 gas 66(19): 3367 hydrocarbons 66(14): 2483 microbial rf spiral groundwater 66( 14): 2483 diifusion 66(19 continental crust 66( 14): 2483 modeling 66(19 mantle deg issing OO( 14 2483 1ISOLOpeE Os isotopes 66( 14) Re-Os iso es 66 Greenland 66(14): 2615 geochronology 661 19) Archean 66(14): 2615 Exshaw Formation 66( | early Earth 66(14): 2615 mantle evolution 66(14): 2615 spinel peridotites 66(14): 2615 komatiites 66(14): 2615 ydrocarbon ate veneer 66(14): 2615 Arctic 66(20 noble gases 66( 16): 2807 lake sediments hydrocarbons 66(16): 2807 Pb isotopes 661 migration 66( 16): 2807 atmospheric depositior basin fluids 66(16): 2807 atmospheric O2 66 Delaware Basin 66( 16): 2807 ( isotopes O6( >] ppa laser microprobe 66(16): 2855 mass balance 66(21 sulfosalts 66(16): 2855 fossil plants 66(21 375 MORB 66 fractionation factor 66( 16) isotope fractionation 66( 2 OIB 66 S isotopes 66(16): 2855 pressure effect 66(21): 37 H isotopes 66( 16): 2865 brucite 66(21): 3769 » hifi TAS! O isotopes 66(16): 2865 water 66(21): 3769 6619 16 chert nodules 66(16): 2865 experiment 66(21) Th 66(9 165] periodicity 66( 16): 2865 D/H isotopes 66(21) Sm 66(9): 165] sedimentary basins 66(16): 2865 LIAB iron meteorites 66(21 Nd 66(9): 1651 Poland 66(16): 2865 pallasites 66(21): 3793 komatiites 66(9): 1651 Jurassic 66(16): 2865 Re-Os isotopes 66( 21) basaltic crust 66(9): 1651 lunar regolith grains 66(16): 2929 Pd-Ag isotopes 66(21) continental crust 66(9): 1651 Kapoeta meteorite 66(16): 2929 chronology 66(21): 37 depleted mantle 66(9): 1651 mantle plumes 66(9): 1651 mineral dissolution microbial products 66(11): 2003 marine sediments B.E.T. surface 66(17): 3055 degradation rate and pathway 66(11): 2003 biogeochemistry 66(1): 85 geometric surface 66(17): 3055 biomarkers 66(15): 2719 pyrite oxidation 66(1): 85 fractals 66(17): 3055 turbidites 66(15): 2719 iron sulfide oxidation 66(1): 85 surface morphology 66(17): 3055 Madeira abyssal plain 66(15): 2719 Mn(IV) reduction 66(1): 85 sediments 66(15): 2719 Fe(III) reduction 66(1): 85 N oxidation 66(15): 2719 nitrate reduction 66(1): 85 biomarkers 66(15): 2737 authigenic metals 66(5): 849 nanoscience Arabian Sea 66(15): 2737 sikencnes 66(5): 849 nanogeochemistry 66(5): 735 Indian Ocean 66(15): 2737 Indian Ocean 66(5): 849 critical zone 66(5): 735 sediments 66(15): 2737 precession cycles 66(5): 849 mineral-bacteria interactions 66(5): 735 oxidation 66(15): 2737 manganese carbonate formation 66(5): 867 mineral-water interactions 66(5): 735 preservation 66(20): 3573 MnO, reduction 66(5): 867 metal transport 66(5): 735 alteration 66(20): 3573 oxygen isotopes 66(5) 867 sedimentary diagenesis 66( 20): 3573 carbon isotopes 66(5): 867 Oo Cc isotopes 66(20): 3573 Baltic Sea 66(5): 867 N isotopes 66(20): 3573 Mn carbonate 66(9): 1589 organic matter bacterial degradation 66(20) marine sediments 66(2): 223 Lake Lugano 66(20): 3573 laminated sediments 66(9): 1589 Heinrich Events 66(2): 223 hydrogen isotopes 66(22): 3955 Baltic Sea 66(9): 1589 carbon isotopes 66(2): 223 methane oxidation 66(22): 3955 saline inflow 66(9): 1589 nitrogen isotopes 66(2): 223 bacteria 66(22): 3955 Mn sulfide 66(9): 1589 paleoclimate 66(2): 223 fatty acids 66(22): 3955 foraminifera 66(9): 1589 North Atlatnic 66(2): 223 sterols 66(22): 3955 bioturbation 66(10): 1759 Late Quaternary 66(2): 223 hopanols 66(22): 3955 authigenic 66(10): 1759 eastern tropical North Pacific 66(3): 457 isotope fractionation 66(22): 3955 uranium 66(10): 1759 degradation 66(3): 457 lipid biosynthesis 66(22): 3955 mobilization 66(10): 1759 denitrification 66(3): 457 Bacteria 66(23): 4085 non-steady state diagenesis 66(14): 2547 oxygen-deficient zone 66(3): 457 methane 66(23): 4085 Saguenary Fjord 66(14): 2547 amino acids 66(3): 457 Be’eri 66(23): 4085 flood event 66( 14): 2547 POC flux 66(3): 457 seeps 66(23): 4085 porewater salinity 66(14): 2547 organic sulfur 66(6): 937 preservation 66(23): 4085 diagenesis 66(14): 2547 Holocene 66(6): 937 Archaea 66(23): 4085 anaerobic nitrate production 66(14): 2547 methylthioethers 66(6): 937 methanotrophs 66(23): 4085 Fe 66(14): 2547 pyrite 66(6): 937 hopanoid triterpenoids 66(23): 4085 Mn 66(14): 2547 polysulfides 66(6): 937 extreme environments 66(23): 4085 isotopes 66(14): 2569 thiolanes 66(6): 937 organo-sulfur compounds 66(23): 4085 sediment 66(14): 2569 lakes 66(6): 937 Os geochemistry Labrador Sea 66(14): 2569 dissolved organic carbon 66(6): 955 Os isotopes 66(21): 3789 Nd isotopes 66(14): 2569 marine organic chemistry 66(6): 955 seawater 66(21): 3789 Pb isotopes 66(14): 2569 humic substances 66(6): 955 atmospheric deposition 66(21): 3789 clay-size fraction 66(14): 2569 carbohydrates 66(6): 955 *!°Pb 66(21): 3789 Quaternary 66(14): 2569 black carbon 66(6): 1025 oxygen isotopes authigenic uranium 66(17): 3085 extraction 66(6): 1025 witherite 66(1): 63 marine particles 66(17): 3085 ‘°C measurements 66(6): 1025 aragonite 66(1): 63 sediment traps 66(17): 3085 soot 66(6): 1025 carbonate minerals 66(1): 63 redox chemistry 66(17): 3085 charcoal 66(6): 1025 isotope equilbrium 66(1): 63 Sr isotopes 66(2' 0) 358 C isotopes 66(7): 1211 chemical synthesis 66(1): 63 Nd isotopes 66(20): 35: chemical processing 66(7): 1211 fractionation factor 66(1): 63 detrital flux 66(20): 3585 plant tissue 66(7): 1211 fractionation factor 66(4): 589 terrigenous sediments 66(20): 3585 cellulose 66(7): 1211 phosphoric acid 66(4): 589 sapropels 66(20): 3585 C3 66(7) 1211 carbon dioxide 66(4) 589 phosphorus geochemistry 66(23): 4069 C4 CAM 66(7): 1211 magnesite 66(4): 589 Heinrich events 66(23): 4069 Isua supracrustal belt 66(7): 1257 Fe oxides 66(23): 4069 carbon isotope 66(7): 1257 metamorphism 66(7): 1257 dysaerobic conditions 66(23): 4069 bottom water 66(23): 4069 ion microprobe 66(7): 1257 graphite 66(7): 1257 glacial conditions 66(23): 4069 = - phosphorus regeneration 66(23): 4069 = caerreinge tne nig Snat agen _ . - ae Murchison 66(10): 1851 clay mineralogy 66(17): 3093 CMhoe s6a6p(e2a4k):e 4B3a6y7 66(24): 436 meteoreiie_ 66(10): . 18125 1 oxy:g en isotopemes 66(17)7 : 3093 F NMR 66(10): 1851 paleoclimate 66(17): 3093 redox 66(24): 4367 macromolecule 66(10): 1851 Permian-Pennsylvanian 66(17): 3093 martian meteorites 'SC 66(10): 1851 Pb geochemistry shergottite 66(19): 3505 1H 66(10): 1851 concentration 66(14): 2517 petrology 66(19): 3505 trace metals 66(11): 1969 soil 66(14): 2517 major and trace elements 66(19) lipid biomarkers 66(11): 1969 partitioning 66(14): 2517 micrometeorites sapropel 66(11): 1969 isotopes 66(14): 2517 st: ony cosmic spherules 66(1): 17: 3 Mediterranean Sea 66(11): 1969 sequential extraction 66(14): 2517 Fe isotopes 66(1): 173 ODP Site 969 66(11): 1969 Pb isotopes Mg isotopes 66(1): 173 paleoclimate 66(11): 1969 ocean circulation 66(2): 257 Si isotopes 66(1): 173 redox oscillation 66(11): 2003 general circulation model 66(2): 257 Antarctica 66(1): 173 marine sediments 66(11): 2003 paleoceanography 66(2): 257 mass-dependent fractionation 66(1): 173 cell-associated lipids 66(11): 2003 transport and removal of Pb 66(2): 257 phosphate minerals partitioning 66(3): 507 beryllium 66(12): 2239 high-pressure polymorph 66(13): 2439 mantle degassing 66(3): 507 mineral/melt partitioning 66(12) merrillite 66(13): 2439 clinopyroxene 66(3): 507 cordierite 66(12): 2239 [f113}a[/f113}Ca,(PO,), 66(13): 2439 diffusion 66(4): 635 feldspar 66(12): 2239 shock veins 66(13): 2439 multicomponent diffusion 66(4): 635 mica 66(12): 2239 Suizhou meteorite 66(13): 2439 CaO-Al,0,-SiO, 66(4): 635 crustal cycle of beryllium 66(12): 2239 diffusion matrix 66(4): 635 granites 66(12): 2239 R Libyan Desert glass 66(5): 903 partition coefficient 66(12): 2267 silicate immiscibility 66(5): 903 Mg-Fe partitioning 66(12): 2267 rare earth elements graphite ribbons 66(5): 903 olivine melt 66(12): 2267 curium 66(1): | dark streaks 66(5): 903 melt structure 66(12): 2267 humic substances 66(1): 1 Tyndall effect 66(5): 903 depolymerization of melt 66(12): 2267 montmorillonite 66(1): 1 impact glass 66(5): 903 solubility experiments 66(12): 2273 laser-induced fluorescence spectroscopy vesicles 66(8): 1449 Mg/Si ratio 66(12): 2273 66(1): 1 helium diffusion 66(8): 1449 mantle 66(12): 2273 sorption 66(1): 1 noble gases 66(8): 1449 differentiation 66(12): 2273 tetrad effect 66(7): 1185 mid-ocean ridge 66(8): 1449 continental crust 66(12): 2273 fluorite 66(7): 1185 basalt 66(8): 1449 aqueous fluid 66(12): 2287 granites 66(7): 1185 carbon dioxide 66(9): 1627 solubility experiments 66(12): 228 fluid evolution 66(7): 1185 water 66(9): 1627 alkali 66(12): 2287 pigeonite 66(7): 1269 andesites 66(9): 1627 alumina 66(12): 2287 lunar ferroan anorthosite 66(7): 1269 FTIR 66(9): 1627 element partitioning 66(12): 2287 partitioning 66(7): 1269 SIMS analyses 66(9): 1627 pressure 66(12): 2287 subsolidus reequilibration 66(7): 1269 melt polymerization 66(9): 1627 temperature 66(12): 2287 pyroxenes 66(7): 1269 solubility mechanisms 66(9): 1627 O isotopes 66(12): 2299 analytical methods 66(20): 3635 melt species 66(9): 1627 U isotopes 66( 12): 2299 isotope dilution analysis 66(20): 3635 CO, solubility 66(10): 1809 Pb isotopes 66(12): 2299 Mc-ICPMS 66(20): 3635 CO, speciation 66(10): 1809 zircon 66(12): 2299 Ce anomaly 66(20): 3635 phonolite 66(10): 1809 China 66(12): 2299 rhyolites infrared 66(10): 1809 Neoproterozoic 66(12): 2299 U-Th disequilibrium 66(10): 1821 NMR 66(10): 1809 ultrahigh-pressure metamorphism 66(12) residence times 66(10): 1821 mid-ocean ridge basalts 66(12): 2073 2299 accessory phases 66(10): 1821 low-velocity zone 66(12): 2073 snowball Earth 66(12): 2299 mineral crystallization 66(10): 1821 mantle heterogeneity 66(12): 2073 peat bogs 66(13): 2307 fractionation rates 66(10): 1821 potential temperature 66(12): 2073 atmospheric deposition 66(13): 2307 piagioclase-spinel 66(12): 2073 SE Asia 66(13): 2307 S lherzolite 66(12): 2073 Holocene 66(13): 2307 basalt generation 66(12): 2073 younger Dryas 66(13): 2307 silica garnet peridotite 66(12): 2091 dust 66(13): 2307 biogenic silica 66(9): 1601 modal mineralogy 66(12): 2091 sources 66(13): 2307 aluminum 66(9): 1601 melting 66(12): 2091 aerosols 66(13): 2307 crystal chemistry 66(9): 1601 mantle 66(12): 2091 Eu 66(13): 2325 XANES/EXAFS 66(9): 1601 mineralogical effects 66(12): 2091 montmorillonite 66(13): 2325 biogenic silica 66(14): 2559 basalt 66(12): 2099 sorption 66(13): 2325 reactivity 66(14): 2559 lower mantle 66(12): 2099 cation exchange 66(13): 2325 aging 66(14): 2559 perovskite 66(12): 2099 surface complexation 66(13): 2325 diagenesis 66(14): + 559 phase relation 66(12): 2099 montmorillonite 66(13): 2335 adsorption 66(14) + 5 59 chemical composition 66(12): 2099 Ni uptake 66(13): 2335 surface chemistry 66(14): 2559 high-pressure 66(12): 2099 EXAFS 66(13): 2335 surface complexation 66(14): 2559 carbonatite 66(12): 2139 P-EXAFS 66(13): 2335 biogenic silica 66(15): 2701 experiments 66(12): 2139 neoformation 66(13) ~ apparent solubility 66(15): 2701 high-pressure 66(12): 2139 phyllosilicate 66(13): 4 2335 dissolution 66(15): 2701 kimberlite 66(12): 2139 oxygen solubility 66(13): 2349 North Atlantic 66(15): 2701 orangeite 66(12): 2139 electrolyte solutions 66(13): 2349 silicate melts high-pressure 66(12): 2193 Pitzer equations 66(13): 2349 thermodynamic modeling 66(1) experiments 66(12): 2193 arsenopyrite 66(13): 2361 activities 66(1): 93 source 66(12): 2193 As(II]) speciation 66(13): 2361 optical basicity 66(1): 93 water content 66(12): 2193 Fe(II) speciation 66(13): 2361 sulfide capacity 66(1): 93 primitive basalt 66(12): 2193 solubility experiments 66(13): 2361 activity coefficient 66(1): 93 St. Vincent 66(12): 2193 thermodynamic properties 66(13): 2361 viscosity 66(1): 125 island arc 66(12): 2193 hydrothermal fluids 66(13): 2361 tracer diffusion 66(1): 125 bimodal differentiation 66(12): 2211 zircon 66(13): 2379 models 66(1): 125 solidification fronts 66(12): 2211 U-Pb geochronology 66(13): 2379 cations 66(1): 125 basaltic sills 66(12): 2211 bias 66(13): 2379 framework 66(2): 303 silicic segregations 66(12): 2211 magnetic susceptibility 66( 13): 2732779 nuclear magnetic resonance 66(2): 303 thermal expansivity 66(12): 2231 paramagnetic 66(13): 2379 170 NMR 66(2): 303 volume-temperature relationship 66(12) provenance 66(13): 2379 11B NMR spectroscopy 66(2): 303 2231 Frantz magnetic 66(13): 2379 disorder 66(2): 303 supercooled liquid 66(12): 2231 barrier separator 66(13): 2379 aluminosilicates 66(2): 303 haplobasalts 66(12): 2231 sample preparation 66(13): 2379 borosilicates 66(2): 303 anorthite 66(12): 2231 U-Pb 66(13): 2399 Ar 66(3): 507 diopside 66(12): 2231 Th-Pb 66(13): 2399 K 66(3): 507 dilatometry 66(12): 2231 Rb-Sr 66(13): 2399 Rb 66(3): 507 equations of state 66(12): 2231 uranium disequilibrium 66(13): 2399 baddeleyite 66(13): 2399 abyssal peridotite 66(23): 4133 Sudbury Igneous Complex zircon 66(13): 2399 aluminosilicate melts (glasses) 66(23) Pt-Os isotopes 66(2): 273 apatite 66(13) 2399 4149 Re-Os isotopes 66(2): 27 phlogopite 66(13): 2399 melt structure 66(23): 4149 chondritic values 66(2) carbonatite 66(13): 2399 glass structure 66(23): 4149 meteorite impact 66(2) phoscorite 66(13): 2399 water speciation 66(23): 4149 sulfate minerals Kovdor massif 66(13): 2399 ab initio calculations 66(23): 4149 enthalpy of formation 66(10): 1839 aqueous fluid 66(13): 2421 NMR calculations 66(23): 4149 heat capacity 66(10): 1839 solubility experiments 66(13) 242 protonation model 66(2 3): 4149 high-temperature calorimetry 66(10): 1839 alkaline earth 66(13): 2421 depolymerization model 66(23): 4149 jarosite 66(16): 2841 molar volume 66(13): 2421 arc magmatism 66(24): 4287 chromate minerals 66(16): 2841 isochore 66(13): 242 basalt 66(24): 4287 solid solution 66(16): 2841 pressure 66(13): 2421 Central America 66(24): 4287 stoichiometric saturation 66(16) 841 17) temperature 66(13): 242 flux-melting 66(24): 4287 Lippmann diagram 66(16): 2841 liquid immiscibility 66(14): 2603 uranium series disequilibrium 66(24): 42 Re-Os isotopes 66(6): 1037 borosilicates 66(14): 2603 thorium 66(24): 4287 mantle sulfides 66(6): 1037 element partitioning 66(14): 2603 protactinium 66(24): 4287 laser ablation microprobe 66(6): 1037 speciation in melts 66(14): 2603 tektites 66(24): 4347 multicollector ICPMS 66(6): 1037 centrifuge separation 66(14): 2603 impact glasses 66(24): 4347 As(II1) 66(18): 3281 copper solubility 66(15): 2791 Fe local structure 66(24): 4347 orpiment 66( 18): 3281 basaltic magmas 66(15): 2791 XANES 66(24): 4347 oxidation 66(18): 3281 Cu-Fe sulfide liquid 66(15): 2791 EXAFS 66(24): 4347 reaction kinetics 66(18): 3281 silicate liquid partition coefficients 66(15) icate minerals chemical weathering 66(23): 4057 2791 weathering 66(5): 837 pyrrhotite 66(23): 4057 Cu-rich ores 66(15): 2791 granitoid 66(5): 837 acid leaching 66(23): 4057 solubility 66(16): 2915 Pb isotopes 66(5): 837 metal-depleted surface layer 66(23): 4057 water 66(16): 2915 REE 66(5): 837 air oxidation 66(23) shallow magma chambers 66(16) sphene 66(5): 83 7 IR spectroscopy 66( 23 pressure 66(16): 2915 apatite 66(5): 837 XPS 66(23): 4057 density 66(16): 2915 allanite 66(5): 837 X-ray emission spectroscopy 66( trace element partitioning 66(17): 3109 dissolution 66(5): 837 Mossbauer spectroscopy 66(23) partition coefficient 66(17): 3109 surtace chemistry 66(6): 913 surface chemistry garnet 66(17): 3109 amorphous silica 66(6): 913 surface complexation 66(19): 3389 clinopyroxene 66( 17): 3109 glass 66/6): 913 goethite 66(19): 3389 subduction 66(17): 3109 dissolution kinetics 66(6): 913 proton uptake 66(19): 3389 MORB 66(17): 3109 NMR spectroscopy 66(6): 913 potentiometric titrations 66(19): 3389 Zr-Hf 66(17): 31 alkali sorption 66(6): 913 surface charge density 66(19): 3389 Nb-Ta 66(17): 3109 surace polymerization 66(6): 9 ion-probe 66(17): 3109 surface complexation 66(6): 913 experimental petrology 66(17): 3109 aluminous spinel 66(16): 2903 adakites 66(17): 3109 diffusion coefficients 66(16): 2903 thermodynamics pyroxenites 66(17): 3109 Fe(Il) 66(16): 2903 phase equilibrium 66(19): 3431 partial melting 66(17): 3109 Mg 66(16): 2903 Gibbs Ensemble Monte Carlo 66(19) Zr 66(18): 3293 quartz 66(17): 3037 343] Hf 66(18): 3293 crystal growth 66(17): 3037 CH, 66(19): 3431 zircon 66(18): 3293 X-ray reflectivity 66(17): 3037 C,H, 66(19): 3431 hafnon 66(18): 3293 atomic force microscopy 66(17): 3037 computer simulation 66(19): 343 solubility 66(18): 3293 quartz 66(17) 3037 trace element geochemistry fractionation 66(18): 3293 clay 66(22): 3913 dust 66(9): 1569 granite 66(18): 3293 kaolinite 66(22 dust source 66(9): 1569 7 U series disequilibria 66(19): 3481 dissolution 66( rosols 66(9): 1569 MORB 66(19): 3481 kinetics 66(22): 3913 Owens Lake 66(9): 1569 basalt petrogenesis 66(19): 3481 activation energy 66(22): 3913 playa 66(9): 1569 melt generation 66(19): 3481 pH 66(22): 3913 southwest USA 66(9): 1569 melt transport 66(19): 3481 licate rocks trace elements East Pacific Rise 66(19): 3481 Fe(I1)/Fe(IIl) 66(6): 1085 platinum 66(22): 3987 Nd 66(19): 3481 Fe(Il) 66(6): LO85 osmium 66(22): 3987 Sr 66(19): 3481 Wilson's method 66(6): 1085 Sierra 66(22): 3987 Hf 66(19): 3481 GSJ standards 66(6): 1085 xenolith 66(22)>: 3987 Pb isotopes 66(19): 3481 SNC meteorites sulfide 66(22): 3987 magma chambers 66(19): 3481 basalts 66(10): 1867 palladium 66(22): 3987 trace elements 66(20): 3647 crystallization 66(10): 1867 iridium 66(22):~ 3987 partitioning 66(20): 3647 modeling 66(10): 1867 hydrous melts 66(20): 3647 redox processes 66(10): 1867 REE 66(20): 3647 phase equilibria 66(10): 1867 clinopyroxene 66(20): 3647 oxides 66(10): 1867 U geochemistry garnet 66(20): 3647 silicates 66(10): 1867 sorption 66(20): 3533 melt generation 66(23): 4133 mineral analyses 66(10): 1867 precipitation 66(20) melt transport 66(23): 4133 ar nebula iron oxides 66(20) spreading ridges 66(23): 4133 silicon carbide 66(4): 661 XANES 66(20) geochemistry 66(23): 4133 silica 66(4): 661 EXAFS 66(20) U-series disequilibria 66(23): 4133 volatilization 66(4): 661 FT-IR 66(20) porous flow 66(23): ) 4133 kinetics 66(4): 661 luminescence 66(20) trace elements 66( * 3) presolar grains 66(4): 661 uranate 66(20): 3533 2 depletion 66(5): 819 carbonate minerals 66(19): 3417 REE 66(5): 819 silicate minerals 66(19): 3417 volatiles dissolution 66(5): 819 Himalaya 66(19): 341° volcanic gases 66(21): 3811 laterites 66(7): 1197 black smokers 66(21): 3811 chemical redistribution 66(7): 1197 atmospheric oxygen 66(21): 3811 trace elements 66(7): 1197 great oxidation event 66(21): 3811 U-Th disequilibria 66(7): 1197 mantle oxidation stage 66(21): 3811 modeling 66(7): 1197 C isotopes 66(21): 3811 silicate minerals 66(8): 1335 zinc geochemistry S isotopes 66(21): 3811 Antarctica 66(8): 1335 sediments 66(9): 1549 N isotopes 66(21): 3811 McMurdo Dry Valleys 66(8): 1335 speciation 66(9): 1549 biofilms 66(8): 1335 micro-PIXE 66(9): 1549 W silicon 66(9): 1525 SXRF 66(9): 1549 germanium 66(9): 1525 EXAFS 66(9): 1549 weathering Hawaii 66(9): 1525 P-EXAFS 66(9): 1549 dissolution rates 66(15): 2665 chronosequence 66(9): 1525 principal component analysis 66(9 experimental 66(15): 2665 sequential extraction 66(9) zircon rhyolite 66(15): 2665 *"Os/**’Os 66(9): 1539 oscillatory zoning 66(2 311 glass 66(15): 2665 black shales 66(9): 1539 SHRIMP 66(2): 311 clay-size fraction 66(15): 2665 isotope geochemistry 66(9) REE 66(2): 311 hydration 66(15): 2665 Lesser Himalaya 66(9): 1539 pattern formation 66(2) chemical affinity 66(15): 2665 global budget 66(9): 1539 self-organization 66(2): 311 flushing 66(15): 2665 Re 66(9): 1539 partition coefficient 66( 16): 2887 Himalaya Mountains 66(1): 13 Os 66(9): 1539 melt inclusion 66(16): 2887 silicate minerals 66(1): 13 granite 66(14): 2583 accessory minerals 66(16):; 2887 carbonate minerals 66(1): 13 oxidation 66(14): 2583 trace elements 66(16): 2887 soil chronosequence 66(1): 13 redox 66(14): 2583 rare earth elements 66( 16): 2887 Ca/Sr 66(1): 13 Fe-reducing bacteria 66(14): 2583 petrogenesis 66(16): 2887 Sr isotopes 66(1): 13 simulation 66(14): 2583 fractional crystallization 66(16) 2RR U 66(1): 29 Monod kinetics 66( 14): 2583 partial melting 66(16): 2887 black shale 66(1): 29 chemical weathering 66(19): 3397 differentiation 66( 16): 2887 Himalaya 66(1): 29 Yamuna basin 66(19): 3397 zoning Re 66(1): 29 Himalaya 66(19): 3397 oscillatory zoning 66(3): 403 Os 66(1): 29 CO, drawdown 66(19): 3397 barite 66(3): 403 Yamuna River 66(1): 29 activation energy 06/ 19): 3397 celestite 66(3): 403 Zr 66(5): 819 chemical weathering 66(19): 3417 crystal growth 66(3): 403 mobility 66(5): 819 Sr isotopes 66(19) 3417 nonlinear dynamics 66(3): 403 AUTHOR INDEX Abdelmoula, M. 66(5): 829 Bellomo, S. 66(6): 963 “*hadwick, O. A. 66(9): 1525 Accardi, A. 66(6): 955 Belshaw, N. S. 66(4): 683 ‘hamberlain, C. P. 66(1): 13 Adam, P. 66(23): 4085 Bender, J. 66(19): 348! ‘hamorro, E. M. 66(3): 507 Adatte, T. 66(23): 4069 Bennett, V. C. 66(14): 2615 ‘han, L-H. 66(4): 615 Adelson, J. M. 66(24) Bernasconi, S. M. 66(20): 3573 ‘haroy, B. 66(8): 1401 Adler, M. 66(24): 4247 Berner. R. A. 66(21): 3757 ‘hateigner, D. 66(9): 1549 Aeschbach-Hertig, W. 66(23 Betancourt, J. L. 66(22): 3887 ‘haussidon, M. 66(19): 3351 Aeschbach-Hertig, W. 66( 7 Binet, L. 66(23): 4177 ‘heah, S-F. 66(3): 431 \iuppa, A. 66(6) 3 Bingen, B. 66(7): 1221 ‘heilletz, A. 66(10) Aléeon, J. 66(19) Birkham. T. K. 66(19): 3367 ‘hen, J. H. 66(21) Alard, O. 66(6): 1037 Bish, D. L. 66(8): 1349 ‘hen, M. 66(13): 2439 Albaréde, F. 66(9): 1499 Bleam, W. F. 66(22): 3873 ‘hen, M. 66(17): 3143 Albrecht, P. 66(23): 4085 Blichert-toft, J. 66(19): 3481 ‘heng, H. 66(24): 4287 Alekhin, Yu. V. 66(10): 1713 Blomqvist, S. 66(5): 745 ‘herniak, D. J. 66(9): 1641 Alexander, C. M. O'D. 66(1): 173 Bloom, P. R. 66(22): 3873 ‘hespo, T. M. 66(8): 1401 Alexander, M. O'D. 66(10): 1851 Blowes, D. W. 66(9): 1511 Chidthaisong, A. 66(6): 983 Alexandrov, P. 66(10): 1793 Blum, J. D. 66(1): 13 hin, K-J. 66(6): 983 Alfaro-De La Torre, Ma. C. 66(20): 3549 Blum, J. D. 66(19): 3417 ‘hipera, S. J. 66(8): 1349 Allard, P. 66(6): 963 Blundy, J. D. 66(17): 3109 ‘ipriani, C. 66(24): 4347 Aller, R. C. 66(11): 2003 Blundy, J. D. 66(20): 3647 ‘ipriani, C. 66(5): 881 Al-Shaeib, Z. 66(22): 3901 Blundy, J. D. 66(3): 507 ‘irroe. L. A. 66(6): 1025 Aluwihare, L. I. 66(6): 955 Bodnar, R. J. 66(16): 2887 ‘larke, J. F. 66(5): 797 Ambrosi, J.-P. 66(14): 2583 Bohn, M. 66(19): 3505 ‘lauer, N. 66(7): 1197 Amelin, Y. 66(13): 2399 Boily, J.-F. 66(19): 3389 ocozza, C. 66(3): 431 Anastasio,C . 66(23): 4047 Boiron, M.-C. 66(8): 1401 Cody, G. D. 66(10): 1851 Anderson, L. C. D. 66(17): 3017 Bolllhéfer, A. 66(8) 375 ole. D. R. 66(21): 3769 Anderson, R 66( 10): 1759 Bonnin-Mosbah, M. 66(4): 561 ‘ollerson, K. D. 66(17): 31 Anderson, R. F. 66(17): 3085 Borg, L. E. 66(11): 2025 ooper, R. F. 66(4): 661 Andersson, C. 66(5): 745 Borg, L. E. 66(11): 2037 orrin, L. 66(15): 2701 Archibald, S. M. 66(9) | Bosze. S. 66(6): 997 oston, J. A. 66(17): 30 Armstrong, L. 66(12): 2287 Bourcier, W. 66(6): 913 Coughlin, J. U. 66(20) Arndrsson, S. 66(23): 4015 Boursiquot, S. 66(5): 829 ‘owen, J. P. 66(20) Asanov, I. P. 66(23) ] Boyanov, M. I. 66(22): 3855 reaser, R. A. 66(19) Ash, R. D. 66(2): 347 Boyce, A. J. 66(16): 2 reaser, R. A. 66(4) Ash, R. D. 66(4): 683 Bradbury, M. H. 66(13): 232 ‘roudace, I. W. 66(6): 1011 Astilleros, J. M. 66(18): 3177 Bradbury, M. H. 66(13): 23 ygan, R. T. 66(14): 2541 Atudoree, V. N. 66(16): 2865 Bradley, J. P. 66(4): 661 Aubert, D. 66(19): 3339 srandstitte 66(9): 1663 12 _ Austrheim, H. 66(7 ab 221 “ 7 ore ; “am : 7 66( 16) . -2 959 aDaihnl,gr enR,. SRC.E SyA:. 662(51375): 2981 Avei, R. 66(10) Brasse. S. 66(8): 1409 2: a" Ayalew D. 66(8) 2 Brennan, S. T. 66(15): 2683 mae, 5. S. GAN}: 29 ‘ : Dalai, T. K. 66(19): 3397 Brennwald, M. 66(23): 4103 “ uk ‘ Das Sharma, S. 66(4): 589 BBaa=aeeveFyey enensns.s ,, ’ BB.. 6666((1133)): :3) : o22 2J333e255 BBrrooookkeerr,, RR.. AA.. 6666((31)0:Sia) : 5c0el1 e8 09 DDaau1vnuim eass,, GS.. F.6 r66(6/164 )(:1 7)):: 225358833315 25 Baker, J 66(20): 3635 Brophy I. G. 66(15) 2791 Davies, G. R. 66(10): 1821 Baker, J. A. 66(6): 1051 Brugger, J. 66(20): 3615 Davis. A. M. 66(3): 521 Balaganskaya, E. G. 66(5): 881 Bruland, K. W. 66(17): 3063 Davis, A. M. 66(4): 635 Balistrieri, L. S. 66(7) 113 Brumsack, H.-J. 66 11) 1969 Davis, J. A. 66(17): 301 Ball, L. 66(19): 3481 Bryan, S. E. 66(18): 3211 Davis. J. A. 66(7): 1119 Ballentine, C. J. 66(14): 2483 Budahn, J. R. 66(9): 1569 Banfield, J. F. 66(15): 2665 Bunker, B. A. 66(22): 3855 DDee CCaarrlvoa,l hEo., | H. 6M6.( 8):6 6(8)1:3 23 1409 Banfield, J. F. 66(2): 213 Burdloff, D. 66(2) de Combarieu, M. 66( 14): 2583 BBBaaarrrbbdiee.yr, iE ,. P6.6 \(.6 56)6(:86 )(:2 08)4:9 1 42935 73 BBByuucrrhkhkeao,nv ,, I. R. T.A .Y .6 6Y(.9 P).: 6 66(61(1925)38 )9 dDee flLaanndgree,, GB.. 6J.6 (6164()7:) : 25141771 Del Nero, M. 66(19): 3339 Bardoux,G . 66(2): 223 Delaney, J. S. 66(1): 173 Baron, D. 66(16): 2841 alas, G. 66(9): 1601 Demaiffe. D. 66(5): 881 Barron, V. 66(15): 2801 ama, J. 66(22): 3913 DeMaster, D. J. 66(15): 2701 Barrat, J. A. 66(19): 3505 ampbell, A 66(4): 647 DePaolo. D. J. 66(19): 348] Barth, M. G. 66(24): 4325 ‘ampbell, I. H. 66(9): 1651 DePaolo, D. J. 66(6): 1067 Bau, M. 66(8): 1409 andela, P. A. 66(21): 3677 Dequincey, G. 66(7): 1197 Baxter, E. F. 66(6): 1067 andela, P. A. 66(21): 3719 Derenne, S. 66(23): 4177 Beard, B. L. 66(17): 2995 ‘appellen, P. V. 66(14): 2559 Derry, L. A. 66(9): 1525 Beary E. S. 66(2): 273 arignan, J. 66(18): 3191 Devol, A. H. 66(3): 457 Beck, K. M. 66(16): 2875 “arroll, S. A. 66(6): 913 Diakonov, I. |. 66(20): 3599 Beck, L. 66(9): 1601 ‘asey, W. H. 66(4): 577 Dias, R. F. 66(15): 2755 Becker, H. 66(23): 4187 ‘ave, R. R. 66(11): 1905 Dingwell, D. B. 66(12): 2231 Becker, R. H. 66(16): 2929 erling, T. E. 66(18): 3225 Dinewell, D. B. 66(14): 2603 Beckett, J. R. 66(1): 93 Chabaux, F. 66(7): 1197 Dixit, S. 66(14): 2559 Beckett, J. R. 66(4): 661 Chabiron, A. 66(8): 1401 Dohnalkova, A. 66(18): 3247 Beerling, D. J. 66(21): 3757 Chacko, T. 66(19): 3441 Dorfman, A. M. 66(14): 2603

See more

The list of books you might like

Upgrade Premium
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.
DMCA & Copyright: Dear all, most of the website is community built, users are uploading hundred of books everyday, which makes really hard for us to identify copyrighted material, please contact us if you want any material removed.
Copyright @ PDFdrive.to, 2022 | We love our users